Klangsynthese und Physical Modeling - Brothers in Music
Klangsynthese und Physical Modeling - Brothers in Music
Klangsynthese und Physical Modeling - Brothers in Music
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DIPLOMARBEIT HENRI HAGENOW<br />
[Scavone&Cook, 1998] G. Scavone, P.R. Cook; 1998: Real-Time <strong>Model<strong>in</strong>g</strong> of W<strong>in</strong>d<br />
Instruments (Proceed<strong>in</strong>gs of the Int. Symposium on <strong>Music</strong>al<br />
Acoustics, p.: 197-202)<br />
[Scavone&Smith, 1997] G. Scavone, J.O. Smith; 1997: Digital Waveguide <strong>Model<strong>in</strong>g</strong> of<br />
Woodw<strong>in</strong>d Instruments (Proceed<strong>in</strong>gs of the Intern. Computer<br />
<strong>Music</strong> Conf. 1997)<br />
[Schelleng, 1973] J.C. Schelleng, 1973: The bowed str<strong>in</strong>g and the player<br />
(Journal of the Acoustical Society of America, 53(1), p. 26-41)<br />
[Schelleng, 1974] J.C. Schelleng, 1974: The Physics of the Bowed Str<strong>in</strong>g (Scientific<br />
America 1/1974)<br />
[Serra, 1997] X. Serra, Barcelona 1997: <strong>Music</strong>al So<strong>und</strong> model<strong>in</strong>g with S<strong>in</strong>usoids<br />
plus Noise (published <strong>in</strong> C. Roads, S.Pope, A. Picialli, G.<br />
De Poli: <strong>Music</strong>al Signal Process<strong>in</strong>g (Swets & Zeitl<strong>in</strong>ger))]<br />
[Serra & Smith, 1990] X. Serra, J.O. Smith III, 1990: Spectral <strong>Model<strong>in</strong>g</strong> Synthesis: A<br />
so<strong>und</strong> analysis/synthesis system based on a determ<strong>in</strong>istic plus<br />
stochastic decomposition (Computer <strong>Music</strong> Journal, 14(4),<br />
p. 12-24)<br />
[Smith, 1983] J.O. Smith III, 1983: Techniques for Digital Filter Design and<br />
System Identification with Application to the Viol<strong>in</strong> (PhD<br />
Thesis, Elec. Eng<strong>in</strong>eer<strong>in</strong>g Dpt. Stanford, CCRMA; Technical<br />
Report STAN-M-14)<br />
[Smith, 1986b] J.O. Smith III, 1986: Elim<strong>in</strong>ation of limit circles and overflow<br />
oscillations <strong>in</strong> time-vary<strong>in</strong>g lattice and ladder digital filters<br />
(Proceed<strong>in</strong>gs of the IEEE Conference on Circuits and<br />
Systems; p.197-299)<br />
[Smith, 1987a] J. O. SmithIII, Stanford 1987: <strong>Music</strong>al Applications of Digital<br />
Waveguides (Technical Report STAN-M-39; CCRMA)<br />
[Smith, 1987c] J. O. Smith III,1987: Waveguide Tutorial (Proceed<strong>in</strong>g of the<br />
International Computer <strong>Music</strong> Conference; p. 9-16; CMA)<br />
[Smith, 1992] J. O. Smith, 1992: <strong>Physical</strong> <strong>Model<strong>in</strong>g</strong> us<strong>in</strong>g Digital Waveguides<br />
(Computer <strong>Music</strong> Journal; spezial Issue on <strong>Physical</strong> <strong>Model<strong>in</strong>g</strong><br />
of <strong>Music</strong>al Instruments, Part I, Vol.16, No.4, pp.74-91)<br />
[Smith, 1996] J. O. Smith, 1996: <strong>Physical</strong> <strong>Model<strong>in</strong>g</strong>Synthesis Update<br />
(Computer <strong>Music</strong> Journal, 20(2), p. 44-56)<br />
[Smith, 2000] J.O. Smith III, Center for Computer Research <strong>in</strong> <strong>Music</strong> and<br />
Acoustics, Stanford 2000: Digital Waveguide <strong>Model<strong>in</strong>g</strong> of<br />
<strong>Music</strong>al Instruments (MIT-Press; CCRMA)<br />
[Smith, 2000_b] J.O. Smith III, 2000: Nonl<strong>in</strong>ear Commuted Synthesis of Bowed<br />
Str<strong>in</strong>gs (CCRMA, <strong>Music</strong> Department, Stanford University)<br />
Onl<strong>in</strong>e-Version 1.0 124
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