2000 character limit reached
Optimizing tiny colorless feedback delay networks
Published 17 Feb 2024 in eess.AS and cs.SD | (2402.11216v3)
Abstract: A common bane of artificial reverberation algorithms is spectral coloration in the synthesized sound, typically manifesting as metallic ringing, leading to a degradation in the perceived sound quality. In delay network methods, coloration is more pronounced when fewer delay lines are used. This paper presents an optimization framework in which a tiny differentiable feedback delay network, with as few as four delay lines, is used to learn a set of parameters to iteratively reduce coloration. 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 narrow 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. Compared to the author's previous work, which serves as the baseline and utilizes a sparsity loss in the time domain, the proposed method achieves computational savings while maintaining performance. The effectiveness of this work is demonstrated through two application scenarios where smooth-sounding synthetic room 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)
- 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)
- 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)
- 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)
- 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)
Paper Prompts
Sign up for free to create and run prompts on this paper using GPT-5.
Top Community Prompts
Collections
Sign up for free to add this paper to one or more collections.