稀疏系统识别仿射投影算法的稳定性和MSE分析

2014 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP) Pub Date : 2014-05-04 DOI:10.1109/ICASSP.2014.6854836

Markus V. S. Lima, I. Sobrón, W. Martins, P. Diniz

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引用次数: 22

摘要

本文分析了稀疏系统识别仿射投影算法(APA-SSI)和拟APA-SSI算法(QAPA-SSI)的稳定性和稳态均方误差(MSE)。这些算法通过对10范数的近似来利用所涉及信号的稀疏性。与不考虑信号稀疏特性的算法相比，这种方法产生更快的收敛速度和更低的稳态MSE。此外，在一些场景中，通过这种近似建模的稀疏性已被一致地证明优于广泛使用的l1规范。本文给出了如何合理设置上述两种算法的参数以保证其收敛性，并推导了它们的稳态均方误差的封闭形式的理论表达式。从所提出的分析中得出的一个关键结论是，这两种算法的MSE是稀疏度的单调递减函数。仿真结果验证了理论结果。

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Stability and MSE analyses of affine projection algorithms for sparse system identification

We analyze two algorithms, viz. the affine projection algorithm for sparse system identification (APA-SSI) and the quasi APA-SSI (QAPA-SSI), regarding their stability and steady-state mean-squared error (MSE). These algorithms exploit the sparsity of the involved signals through an approximation of the l0 norm. Such approach yields faster convergence and reduced steady-state MSE, as compared to algorithms that do not take the sparse nature of the signals into account. In addition, modeling sparsity via such approximation has been consistently verified to be superior to the widely used l1 norm in several scenarios. In this paper, we show how to properly set the parameters of the two aforementioned algorithms in order to guarantee convergence, and we derive closed-form theoretical expressions for their steady-state MSE. A key conclusion from the proposed analysis is that the MSE of these two algorithms is a monotonically decreasing function of the sparsity degree. Simulation results are used to validate the theoretical findings.

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2014 IEEE International Conference on Acoustics, Speech and Signal Processing (ICASSP)

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