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Skater: A Novel Bi-modal Bi-copter Robot for Adaptive Locomotion in Air and Diverse Terrain (2403.01991v2)

Published 4 Mar 2024 in cs.RO

Abstract: In this letter, we present a novel bi-modal bi-copter robot called Skater, which is adaptable to air and various ground surfaces. Skater consists of a bi-copter moving along its longitudinal direction with two passive wheels on both sides. Using a longitudinally arranged bi-copter as the unified actuation system for both aerial and ground modes, this robot not only keeps a concise and lightweight mechanism but also possesses exceptional terrain traversing capability and strong steering capacity. Moreover, leveraging the vectored thrust characteristic of bi-copters, the Skater can actively generate the centripetal force needed for steering, enabling it to achieve stable movement even on slippery surfaces. Furthermore, we model the comprehensive dynamics of the Skater, analyze its differential flatness, and introduce a controller using nonlinear model predictive control for trajectory tracking. The outstanding performance of the system is verified by extensive real-world experiments and benchmark comparisons.

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References (22)
  1. A. Kalantari and M. Spenko, “Design and experimental validation of hytaq, a hybrid terrestrial and aerial quadrotor,” in 2013 IEEE International Conference on Robotics and Automation.   IEEE, 2013, pp. 4445–4450.
  2. A. Kalantari, T. Touma, L. Kim, R. Jitosho, K. Strickland, B. T. Lopez, and A.-A. Agha-Mohammadi, “Drivocopter: A concept hybrid aerial/ground vehicle for long-endurance mobility,” in 2020 IEEE Aerospace Conference.   IEEE, 2020, pp. 1–10.
  3. M. Cao, X. Xu, S. Yuan, K. Cao, K. Liu, and L. Xie, “Doublebee: A hybrid aerial-ground robot with two active wheels,” arXiv preprint arXiv:2303.05075, 2023.
  4. E. Sihite, A. Kalantari, R. Nemovi, A. Ramezani, and M. Gharib, “Multi-modal mobility morphobot (m4) with appendage repurposing for locomotion plasticity enhancement,” Nature communications, vol. 14, no. 1, p. 3323, 2023.
  5. X. AEROHT. evtol flying car. [Online]. Available: https://intl.aeroht.com/
  6. AeroMobil. Am 4.0. [Online]. Available: https://www.aeromobil.com/
  7. PAL-V. Pla-v liberty. [Online]. Available: https://www.pal-v.com/en
  8. J. Yang, Y. Zhu, L. Zhang, Y. Dong, and Y. Ding, “Sytab: A class of smooth-transition hybrid terrestrial/aerial bicopters,” IEEE Robotics and Automation Letters, vol. 7, no. 4, pp. 9199–9206, 2022.
  9. Q. Tan, X. Zhang, H. Liu, S. Jiao, M. Zhou, and J. Li, “Multimodal dynamics analysis and control for amphibious fly-drive vehicle,” IEEE/ASME Transactions on Mechatronics, vol. 26, no. 2, pp. 621–632, 2021.
  10. R. Zhang, J. Lin, Y. Wu, Y. Gao, C. Wang, C. Xu, Y. Cao, and F. Gao, “Model-based planning and control for terrestrial-aerial bimodal vehicles with passive wheels,” in 2023 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS).   IEEE, 2023, pp. 1070–1077.
  11. H. Jia, R. Ding, K. Dong, S. Bai, and P. Chirarattananon, “Quadrolltor: A reconfigurable quadrotor with controlled rolling and turning,” IEEE Robotics and Automation Letters, vol. 8, no. 7, pp. 4052–4059, 2023.
  12. N. Pan, J. Jiang, R. Zhang, C. Xu, and F. Gao, “Skywalker: A compact and agile air-ground omnidirectional vehicle,” IEEE Robotics and Automation Letters, vol. 8, no. 5, pp. 2534–2541, 2023.
  13. S. Morton and N. Papanikolopoulos, “A small hybrid ground-air vehicle concept,” in 2017 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS).   IEEE, 2017, pp. 5149–5154.
  14. S. Mintchev and D. Floreano, “A multi-modal hovering and terrestrial robot with adaptive morphology,” in Proceedings of the 2nd International Symposium on Aerial Robotics, no. CONF, 2018.
  15. N. B. David and D. Zarrouk, “Design and analysis of fcstar, a hybrid flying and climbing sprawl tuned robot,” IEEE Robotics and Automation Letters, vol. 6, no. 4, pp. 6188–6195, 2021.
  16. C. J. Dudley, A. C. Woods, and K. K. Leang, “A micro spherical rolling and flying robot,” in 2015 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS).   IEEE, 2015, pp. 5863–5869.
  17. S. Atay, M. Bryant, and G. Buckner, “The spherical rolling-flying vehicle: Dynamic modeling and control system design,” Journal of Mechanisms and Robotics, vol. 13, no. 5, p. 050901, 2021.
  18. Y. Qin, Y. Li, X. Wei, and F. Zhang, “Hybrid aerial-ground locomotion with a single passive wheel,” in 2020 IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS).   IEEE, 2020, pp. 1371–1376.
  19. Y. Qin, W. Xu, A. Lee, and F. Zhang, “Gemini: A compact yet efficient bi-copter uav for indoor applications,” IEEE Robotics and Automation Letters, vol. 5, no. 2, pp. 3213–3220, 2020.
  20. X. He and Y. Wang, “Design and trajectory tracking control of a new bi-copter uav,” IEEE Robotics and Automation Letters, vol. 7, no. 4, pp. 9191–9198, 2022.
  21. B. Houska, H. J. Ferreau, and M. Diehl, “Acado toolkit—an open-source framework for automatic control and dynamic optimization,” Optimal Control Applications and Methods, vol. 32, no. 3, pp. 298–312, 2011.
  22. H. J. Ferreau, C. Kirches, A. Potschka, H. G. Bock, and M. Diehl, “qpoases: A parametric active-set algorithm for quadratic programming,” Mathematical Programming Computation, vol. 6, pp. 327–363, 2014.
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