Journal
JOURNAL OF SIGNAL PROCESSING SYSTEMS FOR SIGNAL IMAGE AND VIDEO TECHNOLOGY
Volume 95, Issue 1, Pages 25-36Publisher
SPRINGER
DOI: 10.1007/s11265-022-01802-2
Keywords
Graph signal processing; Impulsive noise; Alpha-stable noise; Normalized least mean pth power algorithm; Multidimensional graph signal
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In this paper, an adaptive graph normalized least mean pth power (GNLMP) algorithm is introduced, which utilizes graph signal processing techniques to estimate sampled graph signals corrupted by impulsive noise. The GNLMP algorithm demonstrates better reconstruction ability and convergence performance compared to other algorithms.
We introduce an adaptive graph normalized least mean pth power (GNLMP) algorithm that utilizes graph signal processing (GSP) techniques, including bandlimited filtering and node sampling, to estimate sampled graph signals under impulsive noise. Different from least-squares-based algorithms, such as the adaptive GSP Least Mean Squares (GLMS) algorithm and the normalized GLMS (GNLMS) algorithm, the GNLMP algorithm has the ability to reconstruct a graph signal that is corrupted by non-Gaussian noise with heavy-tailed characteristics. Compared to the recently introduced adaptive GSP least mean pth power (GLMP) algorithm, the GNLMP algorithm reduces the number of iterations to converge to a steady graph signal. The convergence condition of the GNLMP algorithm is derived, and the ability of the GNLMP algorithm to process multidimensional time-varying graph signals with multiple features is demonstrated. Simulations show that the performance of the GNLMP algorithm in estimating steady-state and time-varying graph signals is faster than GLMP and is more robust in comparison to GLMS and GNLMS.
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