Title :
An adaptive robust LMS employing fuzzy step size and partial update
Author :
Lin, Hsuan-Yu ; Hu, Chia-Chang ; Chen, Yu-Fan ; Wen, Jyh-horng
Author_Institution :
Dept. of Electr. Eng., Nat. Chung Cheng Univ., Chia-Yi, Taiwan
Abstract :
We propose a fuzzy step size least-mean-square (LMS) algorithm, in which an appropriate step size is selected by a fuzzy inference system (FIS) to achieve faster convergence rate and lower steady-state fluctuation. An adaptive fuzzy sequential partial update scheme is developed to reduce system complexity without trading off bit-error rate (BER) and convergence/tracking performance. Simulations of a DS-CDMA interference suppression receiver illustrate the robust convergence and tracking behavior of the proposed LMS-based approaches with various fuzzy input vectors and fuzzy sets. The performance advantages of the proposed algorithms over other LMS algorithms in multipath Rayleigh-fading channels are investigated as well.
Keywords :
Rayleigh channels; adaptive systems; code division multiple access; computational complexity; convergence of numerical methods; error statistics; fuzzy control; fuzzy logic; inference mechanisms; interference suppression; least mean squares methods; multipath channels; radio receivers; spread spectrum communication; BER; DS-CDMA; FIS; adaptive fuzzy sequential partial update; adaptive robust LMS; bit-error rate; direct sequence code division multiple access; faster convergence rate; fuzzy inference system; fuzzy step size; interference suppression receiver; least-mean-square algorithm; multipath Rayleigh-fading channel; steady-state fluctuation; system complexity; tracking performance; wireless communication; Bit error rate; Convergence; Fluctuations; Fuzzy sets; Fuzzy systems; Inference algorithms; Least squares approximation; Multiaccess communication; Robustness; Steady-state; Adaptive interference cancellation; convergence/tracking analysis; fuzzy inference control; least-mean-square (LMS) algorithm; wireless communications;
Journal_Title :
Signal Processing Letters, IEEE
DOI :
10.1109/LSP.2005.849549
