DocumentCode
1990612
Title
The eigenfilter for the design of linear-phase filters with arbitrary magnitude response
Author
Nguyen, Truong Q.
Author_Institution
Lincoln Lab., MIT, Lexington, MA, USA
fYear
1991
fDate
14-17 Apr 1991
Firstpage
1981
Abstract
The author studies the design of linear-phase FIR (finite impulse response) digital filters to approximate linear-phase functions with arbitrary magnitude response. The design method is based on the computation of an eigenvector of an appropriate real, symmetric, and positive-definite matrix. The design of complex-coefficient linear-phase filters is shown to be an extension of the design of the real-coefficient filter. Several examples are presented which demonstrate the usefulness of the approach
Keywords
digital filters; eigenvalues and eigenfunctions; filtering and prediction theory; signal processing; FIR filters; arbitrary magnitude response; complex-coefficient linear-phase filters; eigenfilter; eigenvector computation; finite impulse response; linear phase filter design; real-coefficient filter; Design methodology; Digital filters; Eigenvalues and eigenfunctions; Finite impulse response filter; Frequency; Laboratories; Linear approximation; Passband; Symmetric matrices; Transfer functions;
fLanguage
English
Publisher
ieee
Conference_Titel
Acoustics, Speech, and Signal Processing, 1991. ICASSP-91., 1991 International Conference on
Conference_Location
Toronto, Ont.
ISSN
1520-6149
Print_ISBN
0-7803-0003-3
Type
conf
DOI
10.1109/ICASSP.1991.150785
Filename
150785
Link To Document