Title :
Improving sequential monte carlo blind equalization in OFDM for sparse multipath channles
Author :
Yu, Xunyi ; Lin, Ping ; He, Zhiqiang ; Wu, Weiling
Author_Institution :
Beijing Univ. of Posts & Telecomm., Beijing
Abstract :
We apply sparse Bayesian learning (SBL) to blind OFDM equalization for sparse multipath channels in this paper. We present an improved SBL sequential Monte Carlo (SMC) blind equalizer and a low complexity Sparse Bayesian blind equalizer in OFDM systems. By assuming a parameterized channel prior and using EM algorithm to estimate the parameter from the Monte Carlo sample, the algorithm could produce an accurate sparse channel estimate. Better channel estimate makes the trial distributions in the original SMC more accurate and improves the BER performance. Based on the observation that increasing the particle number to sample the signal space is inefficient, we proposed a novel low complexity Sparse Bayesian blind equalizer. Simulation results show that both algorithms outperform original SMC algorithms significantly under sparse channel conditions.
Keywords :
Bayes methods; Monte Carlo methods; OFDM modulation; blind equalisers; channel estimation; error statistics; expectation-maximisation algorithm; multipath channels; sequential estimation; wireless channels; BER performance; EM algorithm; OFDM systems; channel estimation; parameterized channel; sequential Monte Carlo blind equalization; sparse Bayesian learning; sparse multipath channles; wireless channel; Bayesian methods; Blind equalizers; Channel estimation; Frequency synchronization; Helium; Matching pursuit algorithms; Monte Carlo methods; Multipath channels; OFDM; Sliding mode control; OFDM; Sparse Bayesian learning; blind equalization; sequential Monte Carlo; sparse channels;
Conference_Titel :
Signal Processing Advances in Wireless Communications, 2007. SPAWC 2007. IEEE 8th Workshop on
Conference_Location :
Helsinki
Print_ISBN :
978-1-4244-0955-6
Electronic_ISBN :
978-1-4244-0955-6
DOI :
10.1109/SPAWC.2007.4401275
