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Visual-inertial state estimation based on Chebyshev polynomial optimization (2404.01150v1)
Published 1 Apr 2024 in cs.RO
Abstract: This paper proposes an innovative state estimation method for visual-inertial fusion based on Chebyshev polynomial optimization. Specifically, the pose is modeled as a Chebyshev polynomial of a certain order, and its time derivatives are used to calculate linear acceleration and angular velocity, which, along with inertial measurements, constitute dynamic constraints. This is coupled with a visual measurement model to construct a visual-inertial bundle adjustment formulation. Simulation and public dataset experiments show that the proposed method has better accuracy than the discrete-form preintegration method.
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[\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib6{APACrefauthors}Brossard, M., Bonnabel, S.\BCBL Barrau, A. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleInvariant Kalman filtering for visual inertial SLAM Invariant kalman filtering for visual inertial slam.\BBCQ \APACrefbtitle2018 21st International Conference on Information Fusion (FUSION) 2018 21st International Conference on Information Fusion (FUSION) (\BPGS 2021–2028). \PrintBackRefs\CurrentBib Burri \BOthers. [\APACyear2016] \APACinsertmetastarbib32{APACrefauthors}Burri, M., Nikolic, J., Gohl, P., Schneider, T., Rehder, J., Omari, S.\BDBLSiegwart, R. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleThe EuRoC micro aerial vehicle datasets The euroc micro aerial vehicle datasets.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research35101157–1163, \PrintBackRefs\CurrentBib Campos \BOthers. [\APACyear2021] \APACinsertmetastarbib11{APACrefauthors}Campos, C., Elvira, R., Rodríguez, J.J.G., Montiel, J.M.\BCBL Tardós, J.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleOrb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam Orb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3761874–1890, \PrintBackRefs\CurrentBib Ebcin \BBA Veth [\APACyear2007] \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib32{APACrefauthors}Burri, M., Nikolic, J., Gohl, P., Schneider, T., Rehder, J., Omari, S.\BDBLSiegwart, R. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleThe EuRoC micro aerial vehicle datasets The euroc micro aerial vehicle datasets.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research35101157–1163, \PrintBackRefs\CurrentBib Campos \BOthers. [\APACyear2021] \APACinsertmetastarbib11{APACrefauthors}Campos, C., Elvira, R., Rodríguez, J.J.G., Montiel, J.M.\BCBL Tardós, J.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleOrb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam Orb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3761874–1890, \PrintBackRefs\CurrentBib Ebcin \BBA Veth [\APACyear2007] \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib11{APACrefauthors}Campos, C., Elvira, R., Rodríguez, J.J.G., Montiel, J.M.\BCBL Tardós, J.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleOrb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam Orb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3761874–1890, \PrintBackRefs\CurrentBib Ebcin \BBA Veth [\APACyear2007] \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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[\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ 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[\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib6{APACrefauthors}Brossard, M., Bonnabel, S.\BCBL Barrau, A. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleInvariant Kalman filtering for visual inertial SLAM Invariant kalman filtering for visual inertial slam.\BBCQ \APACrefbtitle2018 21st International Conference on Information Fusion (FUSION) 2018 21st International Conference on Information Fusion (FUSION) (\BPGS 2021–2028). \PrintBackRefs\CurrentBib Burri \BOthers. [\APACyear2016] \APACinsertmetastarbib32{APACrefauthors}Burri, M., Nikolic, J., Gohl, P., Schneider, T., Rehder, J., Omari, S.\BDBLSiegwart, R. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleThe EuRoC micro aerial vehicle datasets The euroc micro aerial vehicle datasets.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research35101157–1163, \PrintBackRefs\CurrentBib Campos \BOthers. [\APACyear2021] \APACinsertmetastarbib11{APACrefauthors}Campos, C., Elvira, R., Rodríguez, J.J.G., Montiel, J.M.\BCBL Tardós, J.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleOrb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam Orb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3761874–1890, \PrintBackRefs\CurrentBib Ebcin \BBA Veth [\APACyear2007] \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib32{APACrefauthors}Burri, M., Nikolic, J., Gohl, P., Schneider, T., Rehder, J., Omari, S.\BDBLSiegwart, R. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleThe EuRoC micro aerial vehicle datasets The euroc micro aerial vehicle datasets.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research35101157–1163, \PrintBackRefs\CurrentBib Campos \BOthers. [\APACyear2021] \APACinsertmetastarbib11{APACrefauthors}Campos, C., Elvira, R., Rodríguez, J.J.G., Montiel, J.M.\BCBL Tardós, J.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleOrb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam Orb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3761874–1890, \PrintBackRefs\CurrentBib Ebcin \BBA Veth [\APACyear2007] \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib11{APACrefauthors}Campos, C., Elvira, R., Rodríguez, J.J.G., Montiel, J.M.\BCBL Tardós, J.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleOrb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam Orb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3761874–1890, \PrintBackRefs\CurrentBib Ebcin \BBA Veth [\APACyear2007] \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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[\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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\APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ 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[\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib32{APACrefauthors}Burri, M., Nikolic, J., Gohl, P., Schneider, T., Rehder, J., Omari, S.\BDBLSiegwart, R. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleThe EuRoC micro aerial vehicle datasets The euroc micro aerial vehicle datasets.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research35101157–1163, \PrintBackRefs\CurrentBib Campos \BOthers. [\APACyear2021] \APACinsertmetastarbib11{APACrefauthors}Campos, C., Elvira, R., Rodríguez, J.J.G., Montiel, J.M.\BCBL Tardós, J.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleOrb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam Orb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3761874–1890, \PrintBackRefs\CurrentBib Ebcin \BBA Veth [\APACyear2007] \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib11{APACrefauthors}Campos, C., Elvira, R., Rodríguez, J.J.G., Montiel, J.M.\BCBL Tardós, J.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleOrb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam Orb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3761874–1890, \PrintBackRefs\CurrentBib Ebcin \BBA Veth [\APACyear2007] \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2016. \BBOQ\APACrefatitleThe EuRoC micro aerial vehicle datasets The euroc micro aerial vehicle datasets.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research35101157–1163, \PrintBackRefs\CurrentBib Campos \BOthers. [\APACyear2021] \APACinsertmetastarbib11{APACrefauthors}Campos, C., Elvira, R., Rodríguez, J.J.G., Montiel, J.M.\BCBL Tardós, J.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleOrb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam Orb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3761874–1890, \PrintBackRefs\CurrentBib Ebcin \BBA Veth [\APACyear2007] \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib11{APACrefauthors}Campos, C., Elvira, R., Rodríguez, J.J.G., Montiel, J.M.\BCBL Tardós, J.D. \APACrefYearMonthDay2021. \BBOQ\APACrefatitleOrb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam Orb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3761874–1890, \PrintBackRefs\CurrentBib Ebcin \BBA Veth [\APACyear2007] \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2021. \BBOQ\APACrefatitleOrb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam Orb-slam3: An accurate open-source library for visual, visual–inertial, and multimap slam.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3761874–1890, \PrintBackRefs\CurrentBib Ebcin \BBA Veth [\APACyear2007] \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib7{APACrefauthors}Ebcin, S.\BCBT \BBA Veth, M. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleTightly-coupled image-aided inertial navigation using the unscented Kalman filter Tightly-coupled image-aided inertial navigation using the unscented kalman filter.\BBCQ \APACrefbtitleProceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) Proceedings of the 20th International Technical Meeting of the Satellite Division of The Institute of Navigation (ION GNSS 2007) (\BPGS 1851–1860). \PrintBackRefs\CurrentBib Forster \BOthers. [\APACyear2016] \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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[\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA 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[\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib12{APACrefauthors}Forster, C., Carlone, L., Dellaert, F.\BCBL Scaramuzza, D. \APACrefYearMonthDay2016. \BBOQ\APACrefatitleOn-manifold preintegration for real-time visual–inertial odometry On-manifold preintegration for real-time visual–inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3311–21, \PrintBackRefs\CurrentBib Furgale \BOthers. [\APACyear2012] \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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[\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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\APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ 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[\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib14{APACrefauthors}Furgale, P., Barfoot, T.D.\BCBL Sibley, G. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2012. \BBOQ\APACrefatitleContinuous-time batch estimation using temporal basis functions Continuous-time batch estimation using temporal basis functions.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 2088–2095). \PrintBackRefs\CurrentBib Groves [\APACyear2015] \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACinsertmetastarbib21{APACrefauthors}Groves, P.D. \APACrefYearMonthDay2015. \BBOQ\APACrefatitlePrinciples of GNSS, inertial, and multisensor integrated navigation systems, [Book review] Principles of gnss, inertial, and multisensor integrated navigation systems, [book review].\BBCQ \APACjournalVolNumPagesIEEE Aerospace and Electronic Systems Magazine30226–27, \PrintBackRefs\CurrentBib Hartley \BBA Zisserman [\APACyear2003] \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib22{APACrefauthors}Hartley, R.\BCBT \BBA Zisserman, A. \APACrefYear2003. \APACrefbtitleMultiple view geometry in computer vision Multiple view geometry in computer vision. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib Huang [\APACyear2019] \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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[\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib1{APACrefauthors}Huang, G. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleVisual-Inertial Navigation: A Concise Review Visual-inertial navigation: A concise review.\BBCQ \APACrefbtitle2019 International Conference on Robotics and Automation (ICRA) 2019 International Conference on Robotics and Automation (ICRA) (\BPG 9572-9582). \PrintBackRefs\CurrentBib Hug \BOthers. [\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. 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[\APACyear2022] \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib17{APACrefauthors}Hug, D., Bänninger, P., Alzugaray, I.\BCBL Chli, M. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time stereo-inertial odometry Continuous-time stereo-inertial odometry.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters736455–6462, \PrintBackRefs\CurrentBib Jazwinski [\APACyear2007] \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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[\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACinsertmetastarbib24{APACrefauthors}Jazwinski, A.H. \APACrefYear2007. \APACrefbtitleStochastic processes and filtering theory Stochastic processes and filtering theory. \APACaddressPublisherCourier Corporation. \PrintBackRefs\CurrentBib Klein [\APACyear2013] \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACinsertmetastarbib28{APACrefauthors}Klein, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleAn extension of the Floater–Hormann family of barycentric rational interpolants An extension of the floater–hormann family of barycentric rational interpolants.\BBCQ \APACjournalVolNumPagesMathematics of Computation822842273–2292, \PrintBackRefs\CurrentBib Lang \BOthers. [\APACyear2022] \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib18{APACrefauthors}Lang, X., Lv, J., Huang, J., Ma, Y., Liu, Y.\BCBL Zuo, X. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleCtrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras Ctrl-vio: Continuous-time visual-inertial odometry for rolling shutter cameras.\BBCQ \APACjournalVolNumPagesIEEE Robotics and Automation Letters7411537–11544, \PrintBackRefs\CurrentBib Leutenegger \BOthers. [\APACyear2015] \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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[\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib8{APACrefauthors}Leutenegger, S., Lynen, S., Bosse, M., Siegwart, R.\BCBL Furgale, P. \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2015. \BBOQ\APACrefatitleKeyframe-based visual–inertial odometry using nonlinear optimization Keyframe-based visual–inertial odometry using nonlinear optimization.\BBCQ \APACjournalVolNumPagesThe International Journal of Robotics Research343314–334, \PrintBackRefs\CurrentBib Li \BBA Mourikis [\APACyear2012] \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib3{APACrefauthors}Li, M.\BCBT \BBA Mourikis, A.I. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2012. \BBOQ\APACrefatitleImproving the accuracy of EKF-based visual-inertial odometry Improving the accuracy of ekf-based visual-inertial odometry.\BBCQ \APACrefbtitle2012 IEEE International Conference on Robotics and Automation 2012 IEEE International Conference on Robotics and Automation (\BPGS 828–835). \PrintBackRefs\CurrentBib Lovegrove \BOthers. [\APACyear2013] \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib16{APACrefauthors}Lovegrove, S., Patron-Perez, A.\BCBL Sibley, G. \APACrefYearMonthDay2013. \BBOQ\APACrefatitleSpline Fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras. Spline fusion: A continuous-time representation for visual-inertial fusion with application to rolling shutter cameras.\BBCQ \APACrefbtitleBMVC BMVC (\BVOL 2, \BPG 8). \PrintBackRefs\CurrentBib Ma \BOthers. [\APACyear2004] \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. 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\APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ 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Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib23{APACrefauthors}Ma, Y., Soatto, S., Košecká, J.\BCBL Sastry, S. \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACrefYear2004. \APACrefbtitleAn invitation to 3-d vision: from images to geometric models An invitation to 3-d vision: from images to geometric models (\BVOL 26). \APACaddressPublisherSpringer. \PrintBackRefs\CurrentBib Mo \BBA Sattar [\APACyear2022] \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib15{APACrefauthors}Mo, J.\BCBT \BBA Sattar, J. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2022. \BBOQ\APACrefatitleContinuous-time spline visual-inertial odometry Continuous-time spline visual-inertial odometry.\BBCQ \APACrefbtitle2022 International Conference on Robotics and Automation (ICRA) 2022 International Conference on Robotics and Automation (ICRA) (\BPGS 9492–9498). \PrintBackRefs\CurrentBib Mourikis \BBA Roumeliotis [\APACyear2007] \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib2{APACrefauthors}Mourikis, A.I.\BCBT \BBA Roumeliotis, S.I. \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. 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- \APACrefYearMonthDay2007. \BBOQ\APACrefatitleA Multi-State Constraint Kalman Filter for Vision-aided Inertial Navigation A multi-state constraint kalman filter for vision-aided inertial navigation.\BBCQ \APACrefbtitleProceedings 2007 IEEE International Conference on Robotics and Automation Proceedings 2007 IEEE International Conference on Robotics and Automation (\BPG 3565-3572). \PrintBackRefs\CurrentBib Press [\APACyear2007] \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACinsertmetastarbib27{APACrefauthors}Press, W.H. \APACrefYear2007. \APACrefbtitleNumerical recipes 3rd edition: The art of scientific computing Numerical recipes 3rd edition: The art of scientific computing. \APACaddressPublisherCambridge university press. \PrintBackRefs\CurrentBib K. Qin [\APACyear1998] \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib19{APACrefauthors}Qin, K. \APACrefYearMonthDay1998. \BBOQ\APACrefatitleGeneral matrix representations for B-splines General matrix representations for b-splines.\BBCQ \APACrefbtitleProceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) Proceedings Pacific Graphics’ 98. Sixth Pacific Conference on Computer Graphics and Applications (Cat. No. 98EX208) (\BPGS 37–43). \PrintBackRefs\CurrentBib T. Qin \BOthers. [\APACyear2018] \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
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Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib9{APACrefauthors}Qin, T., Li, P.\BCBL Shen, S. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2018. \BBOQ\APACrefatitleVins-mono: A robust and versatile monocular visual-inertial state estimator Vins-mono: A robust and versatile monocular visual-inertial state estimator.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Robotics3441004–1020, \PrintBackRefs\CurrentBib T. Qin \BBA Shen [\APACyear\bibnodate] \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib13{APACrefauthors}Qin, T.\BCBT \BBA Shen, S. \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay\bibnodate. \BBOQ\APACrefatitleOnline temporal calibration for monocular visual-inertial systems. In 2018 IEEE Online temporal calibration for monocular visual-inertial systems. in 2018 IEEE.\BBCQ \APACrefbtitleRSJ International Conference on Intelligent Robots and Systems (IROS) RSJ International Conference on Intelligent Robots and Systems (IROS) (\BPGS 3662–3669). \PrintBackRefs\CurrentBib Ross \BBA Karpenko [\APACyear2012] \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib29{APACrefauthors}Ross, I.M.\BCBT \BBA Karpenko, M. \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2012. \BBOQ\APACrefatitleA review of pseudospectral optimal control: From theory to flight A review of pseudospectral optimal control: From theory to flight.\BBCQ \APACjournalVolNumPagesAnnual Reviews in Control362182–197, \PrintBackRefs\CurrentBib Strang [\APACyear2020] \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACinsertmetastarbib30{APACrefauthors}Strang, G. \APACrefYearMonthDay2020. \BBOQ\APACrefatitleIntroduction to Applied Linear Algebra: Vectors, Matrices, and Least Squares [Bookshelf] Introduction to applied linear algebra: Vectors, matrices, and least squares [bookshelf].\BBCQ \APACjournalVolNumPagesIEEE Control Systems Magazine406136–136, \PrintBackRefs\CurrentBib Thrun [\APACyear2002] \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACinsertmetastarbib5{APACrefauthors}Thrun, S. \APACrefYearMonthDay2002. \BBOQ\APACrefatitleProbabilistic robotics Probabilistic robotics.\BBCQ \APACjournalVolNumPagesCommunications of the ACM45352–57, \PrintBackRefs\CurrentBib Trefethen [\APACyear2019] \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACinsertmetastarbib25{APACrefauthors}Trefethen, L.N. \APACrefYear2019. \APACrefbtitleApproximation Theory and Approximation Practice, Extended Edition Approximation theory and approximation practice, extended edition. \APACaddressPublisherSIAM. \PrintBackRefs\CurrentBib Von Stumberg \BOthers. [\APACyear2018] \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib10{APACrefauthors}Von Stumberg, L., Usenko, V.\BCBL Cremers, D. \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2018. \BBOQ\APACrefatitleDirect sparse visual-inertial odometry using dynamic marginalization Direct sparse visual-inertial odometry using dynamic marginalization.\BBCQ \APACrefbtitle2018 IEEE International Conference on Robotics and Automation (ICRA) 2018 IEEE International Conference on Robotics and Automation (ICRA) (\BPGS 2510–2517). \PrintBackRefs\CurrentBib Wu [\APACyear2019] \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACinsertmetastarbib26{APACrefauthors}Wu, Y. \APACrefYearMonthDay2019. \BBOQ\APACrefatitleiNavFIter: Next-generation inertial navigation computation based on functional iteration inavfiter: Next-generation inertial navigation computation based on functional iteration.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5632061–2082, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2022] \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib20{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2022. \BBOQ\APACrefatitleChevOpt: Continuous-Time State Estimation by Chebyshev Polynomial Optimization Chevopt: Continuous-time state estimation by chebyshev polynomial optimization.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Signal Processing703136–3147, \PrintBackRefs\CurrentBib Zhu \BBA Wu [\APACyear2023] \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib \APACinsertmetastarbib33{APACrefauthors}Zhu, M.\BCBT \BBA Wu, Y. \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib
- \APACrefYearMonthDay2023. \BBOQ\APACrefatitleInertial-Based Navigation by Polynomial Optimization: Inertial-Magnetic Attitude Estimation Inertial-based navigation by polynomial optimization: Inertial-magnetic attitude estimation.\BBCQ \APACjournalVolNumPagesIEEE Transactions on Aerospace and Electronic Systems5967772-7783, {APACrefDOI} https://doi.org/10.1109/TAES.2023.3294176 \PrintBackRefs\CurrentBib