DocumentCode
2614944
Title
Unconstrained optimization criteria for blind equalization of multichannel linear systems
Author
Inouye, Yujiro ; Sato, Takehito
Author_Institution
Dept. of Syst. Eng., Osaka Univ., Japan
fYear
1996
fDate
24-26 Jun 1996
Firstpage
320
Lastpage
323
Abstract
Blind equalization and blind deconvolution have been an important interesting topic in diverse fields including data communication, image processing and geophysical data processing. Inouye and Habe (see Proc. IEEE Signal Processing Workshop on Higher-Order Statistics, p. 96, 1995) proposed a multistage maximization criterion and a single-stage maximization criterion for attaining the blind equalization of multichannel linear time-invariant systems. However their maximization criteria should be subjected to several constraints of the equations. We present an new unconstrained maximization criteria for accomplishing the blind equalization of multichannel linear time-invariant systems. Stochastic gradient algorithms are proposed for solving the unconstrained maximization problems. Simulation examples are included to examine the performance of the proposed algorithms
Keywords
deconvolution; equalisers; linear systems; optimisation; stochastic processes; telecommunication channels; algorithm performance; blind deconvolution; blind equalization; data communication; equations; geophysical data processing; image processing; multichannel linear time-invariant systems; multistage maximization; simulation; single-stage maximization; stochastic gradient algorithms; unconstrained maximization; unconstrained optimization; Blind equalizers; Conferences; Data communication; Data processing; Deconvolution; Equations; Geophysical signal processing; Higher order statistics; Image processing; Signal processing algorithms;
fLanguage
English
Publisher
ieee
Conference_Titel
Statistical Signal and Array Processing, 1996. Proceedings., 8th IEEE Signal Processing Workshop on (Cat. No.96TB10004
Conference_Location
Corfu
Print_ISBN
0-8186-7576-4
Type
conf
DOI
10.1109/SSAP.1996.534881
Filename
534881
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