Performance Analysis of ℓ0-Norm Constraint Variable Step Size Normalized Least Mean Square Algorithm

2018 International Conference on Recent Innovations in Electrical, Electronics & Communication Engineering (ICRIEECE) Pub Date : 2018-07-01 DOI:10.1109/ICRIEECE44171.2018.9008936

Rajni, C. Rai

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Abstract

This paper incorporates a ℓ0 –norm sparsity constraint into variable step size normalized least mean square (ℓ0 -VSSNLMS) algorithm for identification of sparse system corrupted by additive noise. The proposed ℓ0–VSSNLMS algorithm makes a good fairness between convergence characteristics, filter stability and steady state error. The proposed (ℓ0 -VSSNLMS) algorithm incorporates a variable step size that accelerates the convergence characteristics and lowers the mean square deviation (MSD) error than in ℓ0 - NLMS with constant value of step size. The inclusive theoretical performance of ℓ0 -VSSSNLMS algorithm is analyzed in this paper with white Gaussian input under some assumptions which are suitable for practical purpose. An expression for variant step size is derived under the stability condition of proposed algorithm. Finally the implementation of the proposed algorithm is carried out in MATLAB software to manifest the improved beavior in identification of sparse system.

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0-范数约束变步长归一化最小均方算法的性能分析

本文在变步长归一化最小均方(l0 -VSSNLMS)算法中引入了一个l0范数稀疏性约束，用于识别受加性噪声破坏的稀疏系统。提出的l0 - vssnlms算法在收敛特性、滤波器稳定性和稳态误差之间具有良好的公平性。本文提出的(l0 - vssnlms)算法采用可变步长，与恒步长的NLMS相比，加快了收敛特性，降低了均方偏差(MSD)误差。本文分析了在白高斯输入下，在一些符合实际的假设条件下，l0 -VSSSNLMS算法的包容性理论性能。在该算法的稳定性条件下，导出了变步长表达式。最后在MATLAB软件中对所提出的算法进行了实现，以体现该算法在稀疏系统识别中的改进行为。

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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来源期刊

2018 International Conference on Recent Innovations in Electrical, Electronics & Communication Engineering (ICRIEECE)

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