Finite difference schemes and digital waveguide networks for the wave equation: stability, passivity, and numerical dispersion

Author

Bilbao, Stefan ; Smith, Julius O., III

Author_Institution

Dept. of Music, Queen´´s Univ., Belfast, Ireland

Volume

11

Issue

3

fYear

2003

fDate

5/1/2003 12:00:00 AM

Firstpage

255

Lastpage

266

Abstract

In this paper, some simple families of explicit two-step finite difference methods for solving the wave equation in two and three spatial dimensions are examined. These schemes depend on several free parameters, and can be associated with so-called interpolated digital waveguide meshes. Special attention is paid to the stability properties of these schemes (in particular the bounds on the space-step/time-step ratio) and their relationship with the passivity condition on the related digital waveguide networks. Boundary conditions are also discussed. An analysis of the directional numerical dispersion properties of these schemes is provided, and minimally directionally-dispersive interpolated digital waveguide meshes are constructed.

Keywords

delay lines; finite difference methods; interpolation; signal processing; spectral analysis; stability; wave equations; waveguide junctions; bidirectional delay lines; boundary conditions; digital waveguide networks; directional numerical dispersion properties; explicit two-step finite difference methods; interpolated digital waveguide meshes; numerical dispersion; passivity condition; scattering junctions; space-step/time-step ratio bounds; spatial dimensions; spectral analysis; stability; stability properties; wave equation solution; Acoustic applications; Boundary conditions; Dispersion; Finite difference methods; Helium; Music; Numerical stability; Partial differential equations; Production; Waveguide components;

fLanguage

English

Journal_Title

Speech and Audio Processing, IEEE Transactions on

Publisher

ieee

ISSN

1063-6676

Type

jour

DOI

10.1109/TSA.2003.811535

Filename

1208294