References
189
[92] M. R. Schroeder. Computer Speech: Recognition, Compression, and Syn-
thesis. Springer Verlag, Berlin, Germany, 1999.
[93] M. R. Schroeder and B. Logan. "Colorless" Artificial Reverberation. J.
Audio Eng. Soc., 9:192197, July 1961. reprinted in the IRE Trans. on
Audio.
[94] X. Serra. Musical sound modeling with sinusoids plus noise. In C. Roads,
S. Pope, A. Picialli, and G. D. Poli, editors, Musical Signal Processing,
pages 91122. Swets & Zeitlinger, 1997.
[95] X. Serra and J. O. Smith. Spectral modeling synthesis: A sound analy-
sis/synthesis system based on a deterministic plus stochastic decomposi-
tion. Computer Music Journal, 14(4):1224, 1990.
[96] J. O. Smith. An allpass approach to digital phasing and flanging. In Proc.
International Computer Music Conference, page 236, Paris, France, 1984.
ICMA. Also available as Rep. STAN-M-21, CCRMA, Stanford University.
[97] J. O. Smith. Fundamentals of Digital Filter Theory. Computer Music J.,
9(3):1323, 1985.
[98] J. O. Smith. Physical modeling using digital waveguides. Computer Music
J., 16(4):7491, Winter 1992.
[99] J. O. Smith and J. S. Abel. The Bark Bilinear Transform. In Proc. IEEE
Workshop on Applications of Signal Processing to Audio and Acoustics,
Mohonk, NY, Oct. 1995.
[100] J. O. Smith and B. Friedlander. Adaptive interpolated time-delay esti-
mation. IEEE Trans. Aerospace and Electronic Systems, 21(2):180199,
Mar. 1985.
[101] J. Stautner and M. Puckette. Designing Multichannel Reverberators.
Computer Music J., 6(1):5265, Spring 1982.
[102] K. Steiglitz. A Digital Signal Processing Primer. Addison-Wesley, Menlo
Park, CA, 1996.
[103] J. Strikwerda. Finite Difference Schemes and Partial Differential Equa-
tions. Wadsworth & Brooks, Pacific Grove, CA, 1989.
[104] C. R. Sullivan. Extending the Karplus-Strong Algorithm to Synthesize
Electric Guitar Timbres with Distortion and Feedback. Computer Music
J., 14(3):2637, 1990.
[105] J. Sundberg. The Science of Musical Sounds. Academic Press, San Diego,
CA, 1989. First Ed. 1973.
[106] B. Vercoe.
Csound: A manual for the audio processing system and
supporting programs with tutorials.
Technical report, Media Lab,
M.I.T., Cambridge, Massachusetts. Software and Manuals available from
ftp://ftp.maths.bath.ac.uk/pub/dream/, 1993.
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