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Efficient Optimization of Feedback Delay Networks for Smooth Reverberation (2402.11216v2)
Published 17 Feb 2024 in eess.AS and cs.SD
Abstract: A common bane of artificial reverberation algorithms is spectral coloration, typically manifesting as metallic ringing, leading to a degradation in the perceived sound quality. This paper presents an optimization framework where a differentiable feedback delay network is used to learn a set of parameters to reduce coloration iteratively. The parameters under optimization include the feedback matrix, as well as the input and output gains. The optimization objective is twofold: to maximize spectral flatness through a spectral loss while maintaining temporal density by penalizing sparseness in the parameter values. A favorable narrower distribution of modal excitation is achieved while maintaining the desired impulse response density. In a subjective assessment, the new method proves effective in reducing perceptual coloration of late reverberation. The proposed method achieves computational savings compared to the baseline while preserving its performance. The effectiveness of this work is demonstrated through two application scenarios where natural-sounding synthetic impulse responses are obtained via the introduction of attenuation filters and an optimizable scattering feedback matrix.
- Välimäki, V., Parker, J.D., Savioja, L., Smith, J.O., Abel, J.S.: Fifty years of artificial reverberation. IEEE Transactions on Audio, Speech, and Language Processing 20(5), 1421–1448 (2012) Schroeder and Logan [1961] Schroeder, M.R., Logan, B.F.: “Colorless” artificial reverberation. IRE Transactions on Audio (6), 209–214 (1961) Jot and Chaigne [1991] Jot, J.-M., Chaigne, A.: Digital delay networks for designing artificial reverberators. In: Audio Engineering Society Convention 90 (1991) Rocchesso and Smith [1997] Rocchesso, D., Smith, J.O.: Circulant and elliptic feedback delay networks for artificial reverberation. IEEE Transactions on Speech and Audio Processing 5(1), 51–63 (1997) Schlecht and Habets [2016a] Schlecht, S.J., Habets, E.A.: On lossless feedback delay networks. IEEE Transactions on Signal Processing 65(6), 1554–1564 (2016) Schlecht and Habets [2016b] Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schroeder, M.R., Logan, B.F.: “Colorless” artificial reverberation. IRE Transactions on Audio (6), 209–214 (1961) Jot and Chaigne [1991] Jot, J.-M., Chaigne, A.: Digital delay networks for designing artificial reverberators. In: Audio Engineering Society Convention 90 (1991) Rocchesso and Smith [1997] Rocchesso, D., Smith, J.O.: Circulant and elliptic feedback delay networks for artificial reverberation. IEEE Transactions on Speech and Audio Processing 5(1), 51–63 (1997) Schlecht and Habets [2016a] Schlecht, S.J., Habets, E.A.: On lossless feedback delay networks. IEEE Transactions on Signal Processing 65(6), 1554–1564 (2016) Schlecht and Habets [2016b] Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M., Chaigne, A.: Digital delay networks for designing artificial reverberators. In: Audio Engineering Society Convention 90 (1991) Rocchesso and Smith [1997] Rocchesso, D., Smith, J.O.: Circulant and elliptic feedback delay networks for artificial reverberation. IEEE Transactions on Speech and Audio Processing 5(1), 51–63 (1997) Schlecht and Habets [2016a] Schlecht, S.J., Habets, E.A.: On lossless feedback delay networks. IEEE Transactions on Signal Processing 65(6), 1554–1564 (2016) Schlecht and Habets [2016b] Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Rocchesso, D., Smith, J.O.: Circulant and elliptic feedback delay networks for artificial reverberation. IEEE Transactions on Speech and Audio Processing 5(1), 51–63 (1997) Schlecht and Habets [2016a] Schlecht, S.J., Habets, E.A.: On lossless feedback delay networks. IEEE Transactions on Signal Processing 65(6), 1554–1564 (2016) Schlecht and Habets [2016b] Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: On lossless feedback delay networks. IEEE Transactions on Signal Processing 65(6), 1554–1564 (2016) Schlecht and Habets [2016b] Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Schroeder, M.R., Logan, B.F.: “Colorless” artificial reverberation. IRE Transactions on Audio (6), 209–214 (1961) Jot and Chaigne [1991] Jot, J.-M., Chaigne, A.: Digital delay networks for designing artificial reverberators. In: Audio Engineering Society Convention 90 (1991) Rocchesso and Smith [1997] Rocchesso, D., Smith, J.O.: Circulant and elliptic feedback delay networks for artificial reverberation. IEEE Transactions on Speech and Audio Processing 5(1), 51–63 (1997) Schlecht and Habets [2016a] Schlecht, S.J., Habets, E.A.: On lossless feedback delay networks. IEEE Transactions on Signal Processing 65(6), 1554–1564 (2016) Schlecht and Habets [2016b] Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M., Chaigne, A.: Digital delay networks for designing artificial reverberators. In: Audio Engineering Society Convention 90 (1991) Rocchesso and Smith [1997] Rocchesso, D., Smith, J.O.: Circulant and elliptic feedback delay networks for artificial reverberation. IEEE Transactions on Speech and Audio Processing 5(1), 51–63 (1997) Schlecht and Habets [2016a] Schlecht, S.J., Habets, E.A.: On lossless feedback delay networks. IEEE Transactions on Signal Processing 65(6), 1554–1564 (2016) Schlecht and Habets [2016b] Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Rocchesso, D., Smith, J.O.: Circulant and elliptic feedback delay networks for artificial reverberation. IEEE Transactions on Speech and Audio Processing 5(1), 51–63 (1997) Schlecht and Habets [2016a] Schlecht, S.J., Habets, E.A.: On lossless feedback delay networks. IEEE Transactions on Signal Processing 65(6), 1554–1564 (2016) Schlecht and Habets [2016b] Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: On lossless feedback delay networks. IEEE Transactions on Signal Processing 65(6), 1554–1564 (2016) Schlecht and Habets [2016b] Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Rocchesso, D., Smith, J.O.: Circulant and elliptic feedback delay networks for artificial reverberation. IEEE Transactions on Speech and Audio Processing 5(1), 51–63 (1997) Schlecht and Habets [2016a] Schlecht, S.J., Habets, E.A.: On lossless feedback delay networks. IEEE Transactions on Signal Processing 65(6), 1554–1564 (2016) Schlecht and Habets [2016b] Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: On lossless feedback delay networks. IEEE Transactions on Signal Processing 65(6), 1554–1564 (2016) Schlecht and Habets [2016b] Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Schlecht, S.J., Habets, E.A.: On lossless feedback delay networks. IEEE Transactions on Signal Processing 65(6), 1554–1564 (2016) Schlecht and Habets [2016b] Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Feedback delay networks: Echo density and mixing time. IEEE/ACM Transactions on Audio, Speech, and Language Processing 25(2), 374–383 (2016) Heldmann and Schlecht [2021] Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
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In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Heldmann, J., Schlecht, S.J.: The role of modal excitation in colorless reverberation. In: Proceeding of the 24th International Conference on Digital Audio Effects (DAFx20in21), pp. 206–213 (2021) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Schlecht, S.J., Habets, E.A.: Modal decomposition of feedback delay networks. IEEE Transactions on Signal Processing 67(20), 5340–5351 (2019) Dal Santo et al. [2023] Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Dal Santo, G., Prawda, K., Schlecht, S., Välimäki, V.: Differentiable feedback delay network for colorless reverberation. In: Proceedings of the 26th International Conference on Digital Audio Effects (DAFx23), Copenhagen, Denmark, pp. 244–251 (2023) Jot [2015] Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Jot, J.-M.: Proportional parametric equalizers—Application to digital reverberation and environmental audio processing. In: Audio Engineering Society Convention 139 (2015) Schlecht and Habets [2017] Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Schlecht, S.J., Habets, E.A.: Accurate reverberation time control in feedback delay networks. In: Proceedings of the 20th International Conference on Digital Audio Effects (DAFx17), Edinburgh, UK, pp. 337–344 (2017) Gerzon [1976] Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Gerzon, M.A.: Unitary (energy-preserving) multichannel networks with feedback. Electronics Letters 11(12), 278–279 (1976) Stautner and Puckette [1982] Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
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In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Stautner, J., Puckette, M.: Designing multi-channel reverberators. Computer Music Journal 6(1), 52–65 (1982) Moorer [1979] Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Moorer, J.A.: About this reverberation business. Computer music journal, 13–28 (1979) Karjalainen and Järveläinen [2001] Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Karjalainen, M., Järveläinen, H.: More about this reverberation science: Perceptually good late reverberation. In: Proceedings of the 111th Audio Engineering Society Convention (2001) Schlecht [2018] Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Schlecht, S.J.: Feedback delay networks in artificial reverberation and reverberation enhancement. PhD thesis, Friedrich-Alexander-Universitaet Erlangen-Nuernberg, Germany (2018) Lezcano-Casado and Martınez-Rubio [2019] Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Lezcano-Casado, M., Martınez-Rubio, D.: Cheap orthogonal constraints in neural networks: A simple parametrization of the orthogonal and unitary group. In: Proceedings of the International Conference on Machine Learning, pp. 3794–3803 (2019) Kuttruff [2009] Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Kuttruff, H.: Room Acoustics, Fifth Edition. CRC Press (2009) Kuttruff [1958] Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Kuttruff, H.: Eigenschaften und Auswertung von Nachhallkurven. Acta Acustica united with Acustica 8(4), 273–280 (1958) Jot [1992] Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Jot, J.-M.: An analysis/synthesis approach to real-time artificial reverberation. In: Proceedings of IEEE International Conference on Acoustics, Speech, and Signal Processing, vol. 2, pp. 221–224 (1992) Välimäki et al. [2024] Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Välimäki, V., Prawda, K., Schlecht, S.J.: Two-stage attenuation filter for artificial reverberation. IEEE Signal Processing Letters 31, 391–395 (2024) Prawda et al. [2019] Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Prawda, K., Schlecht, S.J., Välimäki, V.: Improved reverberation time control for feedback delay networks. In: Proceedings of the 22nd International Conference on Digital Audio Effects, pp. 1–7 (2019) Välimäki and Reiss [2016] Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Välimäki, V., Reiss, J.D.: All about audio equalization: Solutions and frontiers. Applied Sciences 6(5) (2016) Götz et al. [2022] Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Götz, G., Falcón Pérez, R., Schlecht, S.J., Pulkki, V.: Neural network for multi-exponential sound energy decay analysis. The Journal of the Acoustical Society of America 152(2), 942–953 (2022) Schlecht and Habets [2019] Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Schlecht, S.J., Habets, E.A.: Dense reverberation with delay feedback matrices. In: IEEE Workshop on Applications of Signal Processing to Audio and Acoustics (WASPAA), pp. 150–154 (2019) Schlecht and Habets [2020] Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Schlecht, S.J., Habets, E.A.: Scattering in feedback delay networks. IEEE/ACM Transactions on Audio, Speech, and Language Processing 28, 1915–1924 (2020) Kingma and Ba [2014] Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Kingma, D.P., Ba, J.: Adam: A method for stochastic optimization. arXiv preprint arXiv:1412.6980 (2014) Bini and Noferini [2013] Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Bini, D.A., Noferini, V.: Solving polynomial eigenvalue problems by means of the Ehrlich–Aberth method. Linear Algebra and its Applications 439(4), 1130–1149 (2013) ITU [2015] ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- ITU: Method for the subjective assessment of intermediate quality level of audio systems. Recommendation ITU-R BS.1534-3 (Oct. 2015) Schoeffler et al. [2018] Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Schoeffler, M., Bartoschek, S., Stöter, F.-R., Roess, M., Westphal, S., Edler, B., Herre, J.: WebMUSHRA—A comprehensive framework for web-based listening tests. J. Open Research Software 6(1) (2018) Shapiro and Wilk [1965] Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Shapiro, S.S., Wilk, M.B.: An analysis of variance test for normality (complete samples). Biometrika 52(3/4), 591–611 (1965) Wilcoxon [1945] Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945) Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)
- Wilcoxon, F.: Individual comparisons by ranking methods. Biometrics Bulletin 1(6), 80–83 (1945)