Title :
Blind equalization via linearly constrained minimum variance processing
Author :
Fertig, Louis B. ; McClellan, James H.
Author_Institution :
Lincoln Lab., MIT, Lexington, MA, USA
Abstract :
A new cost function and a new adaptive structure for blind equalization of communications systems with FIR filters are proposed. It is first shown that the cost function of a previously proposed blind equalization algorithm can be expressed in a similar manner to that of the linearly constrained minimum variance (LCMV) problem (which arises in array processing). This new viewpoint permits a new understanding of the convergence behavior of the previously published technique, as well as the development of new approaches to blind equalization. In particular, a new "RLS-like" algorithm is developed that exhibits a convergence rate much faster than previously published algorithms of its class, with a modest increase in computational complexity.
Keywords :
FIR filters; array signal processing; blind equalisers; computational complexity; convergence of numerical methods; filtering theory; least squares approximations; FIR filters; RLS-like algorithm; adaptive structure; array processing; blind equalization algorithm; communications systems; computational complexity; convergence rate; cost function; linearly constrained minimum variance processing; Array signal processing; Blind equalizers; Channel capacity; Computational complexity; Convergence; Cost function; Finite impulse response filter; Laboratories; Resonance light scattering; Signal processing algorithms;
Conference_Titel :
Signals, Systems & Computers, 1998. Conference Record of the Thirty-Second Asilomar Conference on
Conference_Location :
Pacific Grove, CA, USA
Print_ISBN :
0-7803-5148-7
DOI :
10.1109/ACSSC.1998.751574
