Bibliography

AndoAndo1985

Ando, Y. (1985).
Concert Hall Acoustics.
Springer-Verlag.

Cox and D'AntonioCox and D'Antonio2003

Cox, T. J. and P. D'Antonio (2003).
Engineering art: the science of concert hall acoustics.
Interdisciplinary Scicence Review 28(2), 119-129.

Huang, Serafin, and SmithHuang et al.2000

Huang, P., S. Serafin, and J. Smith (2000, Aug.).
A waveguide mesh model of high-frequency violin body resonances.
In Proceedings 2000 International Computer Music Conference, Berlin.

Laird, Masri, and CanagarajahLaird et al.1999

Laird, J., P. Masri, and N. Canagarajah (1999, October).
Modelling diffusion at the boundary of a digital waveguide mesh.
In Proceedings of the International Computer Music Conference, Beijing, China.

Murphy and HowardMurphy and Howard2000

Murphy, D. T. and D. M. Howard (2000, December).
2-D digital waveguide mesh topologies in room acoustics modelling.
In Proceedings of the COST G-6 Conference on Digital Audio Effects (DAFx), Verona, Italy, pp. 211-216.

Murphy, Newton, and HowardMurphy et al.2001

Murphy, D. T., C. J. C. Newton, and D. M. Howard (2001, December).
Digital waveguide mesh moelling of room acoustics: surround-sound, boundaries and plugin implementation.
In Proceedings of the COST G-6 Conference on Digital Audio Effects (DAFx), Limerick, Ireland.

Savioja, Backman, Järvinen, and TakalaSavioja et al.1995

Savioja, L., J. Backman, A. Järvinen, and T. Takala (1995, June).
Waveguide mesh method for low-frequency simulation of room acoustics.
Proceedings 15th International Conference on Acoustics (ICA-95), Trondheim, Norway, 637-640.

SchroederSchroeder1970

Schroeder, M. R. (1970).
Digital simulation of sound transmission in reverberant spaces (part i).
Journal of the Acoustical Society of America 47(2), 424-431.

SchroederSchroeder1975

Schroeder, M. R. (1975).
Diffuse sound reflection by maximum-length sequence.
Journal of the Acoustical Society of America 57(1), 149-150.

SchroederSchroeder1979

Schroeder, M. R. (1979).
Binaural dissimilarity and optimum ceilings for concert halls: More lateral sound diffusion.
Journal of the Acoustical Society of America 65(4), 958-963.

Schroeder and LoganSchroeder and Logan1961

Schroeder, M. R. and B. F. Logan (1961).
Colorless artificial reverberation.
IRE Transactions AU-9, 209-214.

SmithSmith1985

Smith, J. O. (1985).
A new approach to digital reverberation using closed waveguide networks.
pp. 47-53. Computer Music Association.
also available in [SmithSmith1987].

SmithSmith1987

Smith, J. O. (1987).
Music applications of digital waveguides.
Technical Report STAN-M-39, CCRMA, Music Department, Stanford University.
a compendium containing four related papers and presentation overheads on digital waveguide reverberation, synthesis, and filtering. CCRMA technical reports can be ordered by calling (650)723-4971 or by sending an email request to info@ccrma.stanford.edu.

Smith IIISmith III2003

Smith III, J. O. (2003).
Digital Waveguide Modeling of Musical Instruments.
http://www-ccrma.stanford.edu/~jos/waveguide/.

StrubeStrube1980a

Strube, H. W. (1980a).
Diffraction by a planar, locally reacting, scattering surface.
Journal of the Acoustical Society of America 67(2), 460-469.

StrubeStrube1980b

Strube, H. W. (1980b).
Scattering of a plane wave by a schroeder diffusor: A mode-matching approach.
Journal of the Acoustical Society of America 67(2), 453-459.

Van Duyne and SmithVan Duyne and Smith1993a

Van Duyne, S. A. and J. O. Smith (1993a, Oct.).
The 2-D digital waveguide mesh.
In Proceedings IEEE Workshop on Applications of Signal Processing to Audio and Acoustics, New Paltz, NY, New York. IEEE Press.

Van Duyne and SmithVan Duyne and Smith1993b

Van Duyne, S. A. and J. O. Smith (1993b).
Physical modeling with the 2-D digital waveguide mesh.
In Proceedings 1993 International Computer Music Conference, Tokyo, pp. 40-47. Computer Music Association.
available online at http://www-ccrma.stanford.edu/~jos/pdf/mesh.pdf.