Efficiency, accuracy, and stability issues in discrete-time simulations of single reed wind instruments.

A quantitative study of discrete-time simulations for a single reed physical model is presented. It is shown that when the continuous-time model is discretized, a delay-free path is generated in the computation. A general solution is proposed to this problem, that amounts to operating a geometrical transformation on the equations. The transformed equations are discretized using four different numerical methods. Stability properties of each method are assessed through analysis in the frequency domain. By comparing the discrete and continuous frequency responses, it is studied how the physical parameters are mapped by each method into the discrete-time domain. Time-domain simulations are developed by coupling the four digital reeds to an idealized bore model, Quantitative analysis of the simulations shows that the discrete-time systems produced by the four methods have significantly different behaviors, even when high sampling rates are used. As a result of this study, a general scheme for accurate and efficient time-domain simulations of the single reed model is proposed.

[1]  John Backus,et al.  Small‐Vibration Theory of the Clarinet , 1963 .

[2]  Theodore A. Wilson,et al.  Operating modes of the clarinet , 1974 .

[3]  B Gazengel,et al.  単リード吹奏楽器の時間領域シミュレーション 入力インピーダンス測定値からの信号合成 わなはどこにあるか , 1995 .

[4]  Ajm Adrian Houtsma,et al.  Quasi-stationary model of air flow in the reed channel of single-reed woodwind instruments , 1990 .

[5]  A. M. Schneider,et al.  Higher order s-to-z mapping functions and their application in digitizing continuous-time filters , 1991 .

[6]  Mark W. Spong,et al.  Bilateral control of teleoperators with time delay , 1989 .

[7]  Cornelis Johannes Nederveen,et al.  Acoustical Aspects of Woodwind Instruments , 1998 .

[8]  Sanjit K. Mitra,et al.  Digital Signal Processing: A Computer-Based Approach , 1997 .

[9]  R. T. Schumacher,et al.  ON THE OSCILLATIONS OF MUSICAL-INSTRUMENTS , 1983 .

[10]  A Avraham Hirschberg,et al.  Aeroacoustics of musical instruments , 1996 .

[11]  Gary P. Scavone,et al.  An Acoustic Analysis Of Single-Reed Woodwind Instruments With An Emphasis On Design And Performance Issues And Digital Waveguide Modeling Techniques , 1997 .

[12]  Alan M. Schneider,et al.  Further improvements in digitizing continuous-time filters , 1997, IEEE Trans. Signal Process..

[13]  René Causse,et al.  Bifurcations, period doublings and chaos in clarinetlike systems (Erratum) , 1986 .

[14]  Maarten van Walstijn,et al.  Discrete-time modelling of brass and reed woodwind instruments with application to musical sound synthesis , 2002 .

[15]  Stephen C. Thompson,et al.  The effect of the reed resonance on woodwind tone production , 1979 .

[16]  Eric D. Scheirer,et al.  Structured audio and effects processing in the MPEG-4 multimedia standard , 1999, Multimedia Systems.

[17]  Julius O. Smith,et al.  Principles of Digital Waveguide Models of Musical Instruments , 2002 .

[18]  Davide Rocchesso,et al.  Elimination of delay-free loops in discrete-time models of nonlinear acoustic systems , 2000, IEEE Trans. Speech Audio Process..