Title :
Convergence and steady-state behavior of a phase-splitting fractionally spaced equalizer
Author :
Ling, Fuyun ; Qureshi, S.U.H.
Author_Institution :
Codex Corp., Mansfield, MA, USA
fDate :
4/1/1990 12:00:00 AM
Abstract :
The eigenstructure, the initial convergence, and the steady-state behavior of a phase-splitting fractionally spaced equalizer (PS-FSE) are analyzed. It is shown that the initial convergence rate of a T/3 or, in general, a T/M, PS-FSE employing the least-mean-square (LMS) stochastic gradient adaptive algorithm is half that of a symbol rate equalizer (SRE) or a complex fractionally spaced equalizer (CFSE) with the same time span. It is also shown that the LMS adaptive PS-FSE with symbol rate update converges to a Hilbert transformer followed by a matched filter in cascade with an optimal SRE, and thus forms an optional receiver structure. The LMS PS-FSE is computationally more efficient and introduces less system delay than the CFSE
Keywords :
convergence; eigenvalues and eigenfunctions; equalisers; stochastic processes; Hilbert transformer; LMS adaptive algorithm; complex fractionally spaced equalizer; eigenstructure; initial convergence; least-mean-square; phase-splitting fractionally spaced equalizer; steady-state behavior; stochastic gradient adaptive algorithm; symbol rate equalizer; Adaptive algorithm; Baseband; Convergence; Delay systems; Equalizers; Least squares approximation; Matched filters; Passband; Sampling methods; Steady-state;
Journal_Title :
Communications, IEEE Transactions on
