Common-acoustical-pole and residue model and its application to spatial interpolation and extrapolation of a room transfer function

Citation
Y. Haneda et al., Common-acoustical-pole and residue model and its application to spatial interpolation and extrapolation of a room transfer function, IEEE SPEECH, 7(6), 1999, pp. 709-717
Citations number
15
Categorie Soggetti
Eletrical & Eletronics Engineeing
Journal title
IEEE TRANSACTIONS ON SPEECH AND AUDIO PROCESSING
ISSN journal
10636676 → ACNP
Volume
7
Issue
6
Year of publication
1999
Pages
709 - 717
Database
ISI
SICI code
1063-6676(199911)7:6<709:CARMAI>2.0.ZU;2-A
Abstract
A method is proposed for modeling a room transfer function (RTF) by using c ommon acoustical poles and their residues. The common acoustical poles corr espond to the resonance frequencies (eigenfrequencies) of the room, so they are independent of the source and receiver positions. The residues corresp ond to the eigenfunctions of the room. Therefore, the residue, which is a f unction of the source and receiver positions, can be expressed using simple analytical functions for rooms with a simple geometry such as rectangular. That is, the proposed model can describe RTF variations using simple resid ue functions. Based on the proposed common-acoustical-pole and residue mode l, methods are also proposed for spatially interpolating and extrapolating RTF's, Because the common acoustical poles are invariant in a given room, t he interpolation or extrapolation of RTF's is reformulated as a problem of interpolating or extrapolating residue values. The experimental results for a rectangular room, in which the residue values are interpolated or extrap olated by using a cosine function or a linear prediction method, demonstrat e that unknown RTF's can be well estimated at low frequencies from known (m easured) RTF's by using the proposed methods.