Abstract
Robust channel estimation is required for coherent demodulation in multipath fading wireless communication systems which are often deteriorated by non-Gaussian noises. Our research is motivated by the fact that classical sparse least mean square error (LMS) algorithms are very sensitive to impulsive noise while standard SLMS algorithm does not take into account the inherent sparsity information of wireless channels. This paper proposes a sign function based sparse adaptive filtering algorithm for developing robust channel estimation techniques. Specifically, sign function based least mean square error (SLMS) algorithms to remove the non-Gaussian noise that is described by a symmetric α-stable noise model. By exploiting channel sparsity, sparse SLMS algorithms are proposed by introducing several effective sparse-promoting functions into the standard SLMS algorithm. The convergence analysis of the proposed sparse SLMS algorithms indicates that they outperform the standard SLMS algorithm for robust sparse channel estimation, which can be also verified by simulation results.
Highlights
Broadband signal transmission is considered an indispensable technique in next-generation dependable wireless communication systems [1,2,3]
A second-order statistics-based least mean square error (LMS) algorithm [4] cannot be directly applied in broadband channel estimation [12]
By inducing sign function to constraint e(n) in Equation (22), the stable sign function based least mean square error (SLMS)-reweighted ZA (RZA) algorithm is proposed as w(n + 1) = w(n) + μsgn (e(n)) x(n) −
Summary
Broadband signal transmission is considered an indispensable technique in next-generation dependable wireless communication systems [1,2,3]. A second-order statistics-based least mean square error (LMS) algorithm [4] cannot be directly applied in broadband channel estimation [12]. To solve this problem, selecting a suitable noise model is necessary to devise a stable channel estimation that can combat the harmful impulsive noises. Based on the SαS noise model, several adaptive filtering based robust channel estimation techniques have been developed [14,15,16]. We first propose five sparse SLMS algorithms for channel estimation.
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