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All issues Volume 9 (2025) Acta Acust., 9 (2025) 30 References
Open Access
Issue
Acta Acust.
Volume 9, 2025
Article Number 30
Number of page(s) 19
Section Room Acoustics
DOI https://doi.org/10.1051/aacus/2025010
Published online 21 April 2025
  1. J.-Ch. Valière, E. Dupuy, P. Carvalho, B. Bertholon, J.-D. Polack: The acoustic intentionality of the Montivilliers nuns. Is the concept of “reverberation” anachronistic in the study of old buildings? in: T.C. Weissmann Ed., Music and sacred architecture – aural architectures of the divine. Sacred spaces, sound and rite in transcultural perspectives [Google Scholar]
  2. Dr. D.B. Reid: On the Construction of Public Buildings in reference to the communication of Sound, in: Report of the British Association for the Advancement of Science, 5th Meeting (1835) 14–16; https://www.biodiversitylibrary.org/item/252891#page/352/mode/1up [Google Scholar]
  3. P.H. Bagenal, A. Wood: Planning for good acoustics. Methuen & Co., London, 1931 [Google Scholar]
  4. W.C. Sabine: Collected papers on acoustics, New edn. Peninsula Publishing, Los Altos, CA, USA, 1993 [Google Scholar]
  5. Strutt: Reverberation time. Available at https://strutt.arup.com/help/Building_Acoustics/RTInsert.htm (accessed on 30 July 2024) [Google Scholar]
  6. H. Kuttruff: Room acoustics, 2nd edn. Applied Science Publishers, Reading, MA, USA, 1979 [Google Scholar]
  7. D.A. Bies, C.H. Hansen: Engineeing noise control, 4th edn. Spon Press, 2009 [Google Scholar]
  8. X. Zhang: A new formula for reverberation time. Acta Acustica United with Acustica 89 (2003) 857–862 [Google Scholar]
  9. H. Arau-Pachades: An improved reverberation formula. Acustica 65 (1988) 163–179 [Google Scholar]
  10. C. Davis, D. Davis: Sound system engineering, 2nd edn. Focal Press, 1982 [Google Scholar]
  11. R.O. Neubauer: Estimation of reverberation time in rectangular rooms with non-uniformly distributed absorption using a modified Fitzroy equation. Building Acoustics 8 (2001) 115–137 [CrossRef] [Google Scholar]
  12. D.A. Bies, C.H. Hansen: Engineeing noise control, 3rd edn. Spon Press, 2003 [CrossRef] [Google Scholar]
  13. J. Kang: Acoustics of long spaces. Thomas Telford Publishing, London, 2002 [Google Scholar]
  14. J.D. Polack: Modifying chambers to play billiards: the foundations of reverberation theory. Acustica 76 (1992) 257–272 [Google Scholar]
  15. W.B. Joyce: Sabine's reverberation time and ergodic auditoriums. Journal of the Acoustical Society of America 58 (1975) 643–655 [CrossRef] [Google Scholar]
  16. P. Lévy: Théorie de l’addition des variables aléatoires, 2nd edn. Gauthier-Villars, Paris, France, 1954 [Google Scholar]
  17. W.B. Joyce: Exact effect of surface roughness on the reverberation time of a uniformly absorbing spherical enclosure. Journal of the Acoustical Society of America 64 (1978) 1429–1436 [CrossRef] [Google Scholar]
  18. J.D. Polack: Revisiting Sabine's formula. Proceedings of the Institute of Acoustics, 45 (2023) 1–8 [Google Scholar]
  19. J.D. Polack: Revisiting reverberation formulae, in: Proc. InterNoise 2024 (2024) [Google Scholar]
  20. H. Kuttruff: Weglängenverteilung und Nachhallverlauf in Räumen mit diffus reflektierenden Wänden. Acustica 23 (1970) 238–239 [Google Scholar]
  21. M.R. Schroeder: Some new results in reverberation theory and measurement methods, in: Proceedings of the 5th International Congress on Acoustics, Paper G31, 1965 [Google Scholar]
  22. H. Kuttruff: Nachhall und effektive absorption in Räumen mit diffuser Wandreflexion. Acustica 35 (1976) 141–153 [Google Scholar]
  23. F. Mortessagne, O. Legrand, D. Sornette: Renormalisation of exponential decay rates by fluctuation of barrier encounter. Europhysics Letters 20 (1992) 287–293 [CrossRef] [Google Scholar]
  24. F. Mortessagne, O. Legrand, D. Sornette: Role of the absorption distribution and generalization of exponential reverberation law in chaotic rooms. Journal of the Acoustical Society of America 94 (1993) 154–161 [CrossRef] [Google Scholar]
  25. B.-I. Dalenbäck: Catt-acoustic. Available at https://www.catt.se (accessed on 30 July 2024) [Google Scholar]
  26. J. Picaut, L. Simon, J.D. Polack: A mathematical model of diffuse sound field based on a diffusion equation. Acta Acustica united with Acustica 83 (1997) 614–621 [Google Scholar]
  27. H. Dujourdy, B. Pialot, T. Toulemonde, J.D. Polack: Energetic wave equation for modelling diffuse sound field – applications to corridors. Acta Acustica united with Acustica 103 (2017) 480–491 [CrossRef] [Google Scholar]
  28. H. Dujourdy, B. Pialot, T. Toulemonde, J.D. Polack: Energetic wave equation for modelling diffuse sound field – applications to open offices. Wave Motion 87 (2019) 193–212 [CrossRef] [Google Scholar]
  29. J. D Polack: La transmission de l’énergie sonore dans les salles. DSc Thesis, Université du Maine, Le Mans, France, 1982 [Google Scholar]
  30. H. Kuttruff: Weglängenverteilung in Räumen mit schallzerstreuenden Elementen. Acustica 24 (1971) 356–358 [Google Scholar]
  31. I.S. Gradshteyn, I.M. Ryzhik: Table of integrals, series and products, 4th edn. Academic Press Inc, 1980 [Google Scholar]

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