An Improved Adaptive Sparse Channel Estimation Method for Next Generation Wireless Broadband

Beena A. O, S. Pillai, N. Vijayakumar
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引用次数: 2

Abstract

Accurate estimation of channel state information in a time varying environment is a challenging problem in next generation high speed wireless communications. Adaptive Channel Estimation (ACE) techniques are used to estimate the channel coefficients of a time varying wireless channel. Normalized Least Mean Square (NLMS) algorithms are utilized to construct simple and stable ACE methods but the intrinsic sparsity of broadband MIMO wireless channel cannot be efficiently utilized by such methods. A Variable Step Size Sign Data Sign Error NLMS (VSS-SDSENLMS) algorithm is proposed in this paper as a method for adaptive sparse channel estimation in broadband MIMO-OFDM systems. $l_{0}$-norm sparse penalty was employed to the cost function of VSS-SDSENLMS algorithm to exploit the sparse information of time varying broadband wireless channel. Simulation results confirmed that the proposed algorithm improved the performance in terms of bit error rate with comparable computational complexity and better MSE performance at a faster convergence rate.
一种改进的下一代无线宽带自适应稀疏信道估计方法
在时变环境下信道状态信息的准确估计是下一代高速无线通信中一个具有挑战性的问题。自适应信道估计(ACE)技术用于估计时变无线信道的信道系数。采用归一化最小均方(NLMS)算法构建简单稳定的ACE方法,但不能有效利用宽带MIMO无线信道的固有稀疏性。作为宽带MIMO-OFDM系统中的自适应稀疏信道估计方法,本文提出了一种变步长符号数据符号误差NLMS (VSS-SDSENLMS)算法。对VSS-SDSENLMS算法的代价函数采用$l_{0}$-范数稀疏惩罚,利用时变宽带无线信道的稀疏信息。仿真结果表明,该算法在计算复杂度相当的情况下提高了误码率,在更快的收敛速度下获得了更好的MSE性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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