References for the Acoustic Diffusion Equation Interface

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References for the Acoustic Diffusion Equation Interface

1. J. Picaut, L. Simon, and J. D. Polack, “Sound field in long rooms with diffusely reflecting boundaries”, Appl. Acoust, vol. 56, pp. 217–240, 1999.

2. J. Pujolle, “Les différentes définitions du libre parcours moyen du son dans une salle”, Revue d’Acoustique, vol. 36, pp. 44–50, 1976 (in French).

3. N. Xiang, Y. Jing, and A. C. Bockman, “Investigation of acoustically coupled enclosures using a diffusion-equation model”, J. Acoust. Soc. Am., vol. 126, 2009.

4. Y. Jing and N. Xiang, “On boundary conditions for the diffusion equation in room-acoustic prediction”, J. Acoust. Soc. Am. vol. 123, pp. 145–153, 2008.

5. A. Billon and others, “Modeling the sound transmission between rooms coupled through partition walls by using a diffusion model”, J. Acoust. Soc. Am., vol. 123, 2008.

6. V. Valeau and others, “On the use of a diffusion equation for room acoustic prediction”, J. Acoust. Soc. Am., vol. 119, 2006.

7. Y. Jing and N. Xiang, “On The Use of a Diffusion Equation Model for Sound Energy Flow Prediction in Acoustically Coupled Spaces”, COMSOL Conference Boston 2008. www.comsol.com/paper/on-the-use-of-a-diffusion-equation-model-for-sound-energy-flow-prediction-in-aco-5124

8. Y. Jing and N. Xiang, “Boundary Conditions for the Diffusion Equation Model in Room-acoustic Prediction”, COMSOL Conference Boston 2007.

9. T. J. Cox and P. D’Antonio, Acoustic, Absorbers and Diffusers, Taylor and Francis, 2009.

10. R. Schroeder, “New method of measuring reverberation time”, J. Acoust. Soc. Am., vol. 37, pp. 409–412, 1965.

11. C. Foy, V. Valeau, A. Billon, J. Picaut, and M. Hodgson, “An Empirical Diffusion Model for Acoustic Prediction in Rooms with Mixed Diffuse and Specular Reflections”, Acta Acustica united with Acustica, vol. 95, pp. 97–105, 2009.

12. J. Escolano, J. M. Navarro, and J. L. Lopes, “On the limitation of a diffusion equation model for acoustic predictions of rooms with homogeneous dimensions (L)”, J. Acoust. Soc. Am., vol. 128, p. 1586, 2010.

13. C. Visentin, N. Prodi, V. Valeau, and J. Picaut, “A numerical investigation of the Fick’s law of diffusion in room acoustics”, J. Acoust. Soc. Am., vol. 132, p. 3180, 2012.

14. C. Visentin, A numerical and experimental validation of the diffusion equation applied to room acoustics, Ph.D. thesis, 2012.

15. V. Valeau, M. Hodgson, and J. Picaut, “A Diffusion-Based Analogy for the Prediction of Sound Fields in Fitted Rooms”, Acta Acustica united with Acustica, vol. 93, pp. 94–105, 2007.

16. A. D. Pierce, Acoustics, An Introduction to Its Physical Principles and Applications, Chapter SIX, Acoustical Society of America, 1991.

17. L. Beranek and N. Nishihara, “Mean-free-paths in concert and chamber music halls and the correct method for calibrating dodecahedral sound sources”, J. Acoust. Soc. Am., vol. 135, p. 223, 2014.

18. H. Kuttruff, Room Acoustics, Fifth Edition, Spon Press, 2009.

19. Z. Xiangyang, C. Ke’an, and S. Jincai, “On the accuracy of the ray-tracing algorithms based on various sound receiver models”, Appl. Acoust. vol. 64, pp. 433–441 (2003).

20. F. Pind, “Broadband Hybrid Room Acoustic Simulations”, Master Thesis, Technical University of Denmark, DTU, 2013.

21. J. Soares Augusto, “The Io-sinh function, calculation of Kaiser windows and design of FIR filters”, (2015). 10.13140/RG.2.1.3247.0489.