Mixed physical modeling: DWG + FDTD + WDF

Author

Karjalainen, Matti

Author_Institution

Lab. of Acoust. & Audio Signal Process., Helsinki Univ. of Technol., Espoo, Finland

fYear

2003

fDate

19-22 Oct. 2003

Firstpage

225

Lastpage

228

Abstract

Physical modeling by computer, especially for sound synthesis of musical instruments, is based on discrete time and space numerical simulation of the targeted physical systems. Digital waveguides (DWG) have been found to be a particularly attractive technique due to their efficiency and inherent capability of modeling systems with propagation delays. Other techniques used are, for example, finite difference schemes, wave digital filters (WDF), modal synthesis techniques, etc. The relation between these approaches has been investigated to some degree, but systematic studies on how to build mixed models, including subsystems of different types, remain to be carried out. The aim of the paper is to explore some of the relationships between particular modeling paradigms and to show how to construct flexible yet efficient models for sound synthesis.

Keywords

acoustic waveguides; audio signal processing; delays; electronic music; finite difference time-domain analysis; musical acoustics; musical instruments; wave digital filters; FDTD; WDF; computer modeling; digital waveguides; finite difference schemes; modal synthesis techniques; musical instruments; numerical simulation; physical modeling; propagation delays; sound synthesis; wave digital filters; Acoustic scattering; Admittance; Delay lines; Difference equations; Differential equations; Digital signal processing; Finite difference methods; Impedance; Sampling methods; Time domain analysis;

fLanguage

English

Publisher

ieee

Conference_Titel

Applications of Signal Processing to Audio and Acoustics, 2003 IEEE Workshop on.

Print_ISBN

0-7803-7850-4

Type

conf

DOI

10.1109/ASPAA.2003.1285872

Filename

1285872