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C. Chafe, ``Pulsed noise in self-sustained oscillations of musical instruments,'' in Proceedings of the International Conference on Acoustics, Speech, and Signal Processing, Albuquerque, (New York), IEEE Press, 1990,
available as CCRMA Technical Report STAN-M-65, Music Dept., Stanford University.

P. R. Cook, ``Synthesis toolkit in C++, version 1.0,'' in SIGGRAPH Proceedings, Assoc. Comp. Mach., May 1996,
See for a copy of this paper. The Synthesis Tool Kit (STK) software itself is distributed by CCRMA:

K. Guettler, ``The bowed string computer simulated -- some characteristic features of the attack,'' Catgut Acoustical Society Journal, vol. 2, pp. 22-26, Nov 1992,
Series II.

D. A. Jaffe and J. O. Smith, ``Performance expression in commuted waveguide synthesis of bowed strings,'' in Proceedings of the 1995 International Computer Music Conference, Banff, pp. 343-346, Computer Music Association, 1995.

M. Karjalainen and J. O. Smith, ``Body modeling techniques for string instrument synthesis,'' in Proceedings of the 1996 International Computer Music Conference, Hong Kong, pp. 232-239, Computer Music Association, Aug. 1996.

M. E. McIntyre and J. Woodhouse, ``On the fundamentals of bowed string dynamics,'' Acustica, vol. 43, pp. 93-108, Sept. 1979.

N. C. Pickering, The Bowed String,
Mattituck NY: Amereon, Ltd., 1991,
Also available from Bowed Instruments, 23 Culver Hill, Southampton, NY 11968.

R. Pitteroff, ``Modelling of the bowed string taking into account the width of the bow,'' in Proceedings of the Stockholm Musical Acoustics Conference (SMAC-93), (Stockholm), pp. 407-410, Royal Swedish Academy of Music, July 1993.

C. V. Raman, ``On the mechanical theory of vibrations of bowed strings, etc,'' Indian Assoc. Cult. Sci. Bull., vol. 15, pp. 1-158, 1918.

J. H. Smith, Stick-Slip Vibration and its Constitutive Laws,
PhD thesis, Cambridge University, 1990.

J. O. Smith, ``Efficient simulation of the reed-bore and bow-string mechanisms,'' in Proceedings of the 1986 International Computer Music Conference, The Hague, pp. 275-280, Computer Music Association, 1986,
also available in [].

J. O. Smith, ``Efficient synthesis of stringed musical instruments,'' in Proceedings of the 1993 International Computer Music Conference, Tokyo, pp. 64-71, Computer Music Association, 1993,
incorporated into [].

J. O. Smith, ``Physical modeling synthesis update,'' Computer Music Journal, vol. 20, pp. 44-56, Summer 1996,
available online at

H. L. F. von Helmholtz, Die Lehre von den Tonempfindungen als Physiologische Grundlage für die Theorie der Musik,
Braunschweig: F. Vieweg und Sohn, 1863.

H. L. F. von Helmholtz, On the Sensations of Tone as a Physiological Basis for the Theory of Music,
New York: Dover, 1954,
English translation of 1863 (German) edition by A. J. Ellis.

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``Nonlinear Commuted Synthesis of Bowed Strings'', by Julius O. Smith III, Proceedings of the International Computer Music Conference (ICMC-97, Thessaloniki), Computer Music Association, 1997..

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