Title :
An improved least squares blind channel identification algorithm for linearly and affinely precoded communication systems
Author :
Manton, Jonathan H.
Author_Institution :
Dept. of Electr. & Electron. Eng., Univ. of Melbourne, Vic., Australia
Abstract :
Certain linear and affine precoders introduce enough algebraic redundancy to enable the receiver to identify a. single-input single-output finite-impulse response channel without making any statistical assumptions on the source sequence. However, quite surprisingly, the traditional steepest descent least squares algorithm for estimating the channel often fails to converge, even in the absence of noise. This article explains why this is the case and derives a novel steepest descent algorithm on complex projective space that is guaranteed to converge. The complex projective space formulation also provides a standard framework for understanding different performance measures proposed in the literature.
Keywords :
encoding; identification; least squares approximations; telecommunication channels; transient response; FIR channel; SISO finite-impulse response channel; affinely precoded communication systems; algebraic redundancy; complex projective space; complex projective space formulation; least-squares blind channel identification algorithm; linearly precoded communication systems; performance measures; receiver; single-input single-output channel; source sequence; steepest descent least squares algorithm; Additive noise; Australia Council; Channel estimation; Extraterrestrial measurements; Least squares approximation; Least squares methods; Measurement standards; Nonlinear equations; OFDM; Wireless communication;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2002.803613
