Study of filtered-x logarithmic recursive least $p$-power algorithm
Signal Processing
2022-02-02 v1 Machine Learning
Abstract
For active impulsive noise control, a filtered-x recursive least -power (FxRLP) algorithm is proposed by minimizing the weighted summation of the -power of the \emph{a posteriori} errors. Since the characteristic of the target noise is investigated, the FxRLP algorithm achieves good performance and robustness. To obtain a better performance, we develop a filtered-x logarithmic recursive least -power (FxlogRLP) algorithm which integrates the -order moment with the logarithmic-order moment. Simulation results demonstrate that the FxlogRLP algorithm is superior to the existing algorithms in terms of convergence rate and noise reduction.
Keywords
Cite
@article{arxiv.2202.00560,
title = {Study of filtered-x logarithmic recursive least $p$-power algorithm},
author = {Z. Zheng and L. Lu and Y. Yu and R. C. de Lamare and Z. Liu},
journal= {arXiv preprint arXiv:2202.00560},
year = {2022}
}
Comments
7 pages, 3 figures