Title :
Circulant and elliptic feedback delay networks for artificial reverberation
Author :
Rocchesso, Davide ; Smith, Julius O.
Author_Institution :
Dipartimento di Elettronica e Inf., Padova Univ., Italy
fDate :
1/1/1997 12:00:00 AM
Abstract :
The feedback delay network (FDN) has been proposed for digital reverberation, The digital waveguide network (DWN) is also proposed with similar advantages. This paper notes that the commonly used FDN with an N×N orthogonal feedback matrix is isomorphic to a normalized digital waveguide network consisting of one scattering junction joining N reflectively terminated branches. Generalizations of FDNs and DWNs are discussed. The general case of a lossless FDN feedback matrix is shown to be any matrix having unit-modulus eigenvalues and linearly independent eigenvectors. A special class of FDNs using circulant matrices is proposed. These structures can be efficiently implemented and allow control of the time and frequency behavior. Applications of circulant feedback delay networks in audio signal processing are discussed
Keywords :
acoustic delay lines; acoustic signal processing; acoustic waveguides; architectural acoustics; audio signals; circuit feedback; digital filters; eigenvalues and eigenfunctions; filtering theory; linear systems; matrix algebra; recursive filters; reverberation; artificial reverberation; audio signal processing; circulant feedback delay networks; circulant matrices; digital reverberation; digital waveguide network; elliptic feedback delay networks; frequency behavior; linearly independent eigenvectors; lossless FDN feedback matrix; lossless linear systems; orthogonal feedback matrix; recursive feedback comb filter; reflectively terminated branches; scattering junction; time behavior; unit-modulus eigenvalues; Delay lines; Feedback; Finite impulse response filter; Frequency; Music; Psychoacoustic models; Reverberation; Transfer functions; Transmission line matrix methods; Waveguide junctions;
Journal_Title :
Speech and Audio Processing, IEEE Transactions on
