低复杂度递归受限最大韦尔索里亚准则自适应滤波算法

IF 3.4 2区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

Signal Processing Pub Date : 2024-10-03 DOI:10.1016/j.sigpro.2024.109726

Ji Zhao , Lvyu Li , Qiang Li , Bo Li , Hongbin Zhang

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引用次数: 0

摘要

线性约束自适应滤波算法已成为系统估算的理想候选算法。现有的方法，如约束最小均方算法，依赖于基于均方误差的学习，在非高斯噪声环境下性能不佳。因此，人们提出了递归受限最大韦尔索里亚准则（RCMVC）算法，该算法对脉冲失真具有鲁棒性。然而，RCMVC 算法在矩阵反演操作中存在显著的计算开销。为了规避这一问题，本文利用加权法和二分坐标下降（DCD）迭代法，推导出了一种低复杂度的 RCMVC 算法，称为 DCD-RCMVC，它减轻了矩阵反演的要求，提高了估计精度和对非高斯干扰的鲁棒性。此外，我们还对 DCD-RCMVC 算法进行了全面的理论分析，包括对其等价性、收敛特性和计算复杂性的讨论。针对系统识别问题进行的仿真表明，DCD-RCMVC 算法优于现有的先进方法。

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Low-complexity recursive constrained maximum Versoria criterion adaptive filtering algorithm

Linearly-constrained adaptive filtering algorithms have emerged as promising candidates for system estimation. The existing methods such as the constrained least mean square algorithm rely on mean square error based learning, which delivers suboptimal performance under non-Gaussian noise environments. Therefore, the recursive constrained maximum Versoria criterion (RCMVC) algorithm has been derived and is robust against impulsive distortions. Nonetheless, RCMVC suffers from a notable computational overhead stemming from matrix inversion operations. To circumvent this issue, utilizing the weighting method and the dichotomous coordinate descent (DCD) iteration method, this paper derives a low-complexity version of the RCMVC algorithm called DCD-RCMVC, which alleviates the requirement of matrix inversion and enhances the estimation accuracy and robustness against non-Gaussian interference. Furthermore, we also present a comprehensive theoretical analysis of the DCD-RCMVC algorithm, encompassing discussions on its equivalence, convergence properties, and computational complexity. Simulations performed for system identification problems indicate that the DCD-RCMVC algorithm outperforms the existing state-of-art approaches.

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来源期刊

Signal Processing 工程技术-工程：电子与电气

CiteScore

9.20

自引率

9.10%

发文量

309

审稿时长

41 days

期刊介绍： Signal Processing incorporates all aspects of the theory and practice of signal processing. It features original research work, tutorial and review articles, and accounts of practical developments. It is intended for a rapid dissemination of knowledge and experience to engineers and scientists working in the research, development or practical application of signal processing. Subject areas covered by the journal include: Signal Theory; Stochastic Processes; Detection and Estimation; Spectral Analysis; Filtering; Signal Processing Systems; Software Developments; Image Processing; Pattern Recognition; Optical Signal Processing; Digital Signal Processing; Multi-dimensional Signal Processing; Communication Signal Processing; Biomedical Signal Processing; Geophysical and Astrophysical Signal Processing; Earth Resources Signal Processing; Acoustic and Vibration Signal Processing; Data Processing; Remote Sensing; Signal Processing Technology; Radar Signal Processing; Sonar Signal Processing; Industrial Applications; New Applications.