基于最小对数双曲余弦损失的Nyström核算法

Shen-Jie Tang , Yu Tang , Xi-Feng Li , Bo Liu , Dong-Jie Bi , Guo Yi , Xue-Peng Zheng , Li-Biao Peng , Yong-Le Xie
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引用次数: 0

摘要

核自适应滤波器(KAFs)在在线非线性学习应用中引起了巨大的吸引力。值得注意的是,KAFs的有效性高度依赖于合理的学习标准。在这方面,具有较好鲁棒性和收敛性的对数双曲余弦(lncosh)准则引起了近年来的研究。然而,现有的基于lncosh损失的KAFs使用随机梯度下降(SGD)进行优化,缺乏收敛速度和精度之间的权衡。但是基于递归的KAFs可以提供更有效的过滤性能。因此,本文推导了一种基于Nyström方法的鲁棒稀疏核递归最小lncosh损失算法。针对非高斯噪声的测量和合成数据实验证实了该方法在鲁棒性、精度性能和计算成本方面的优越性。
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Nyström kernel algorithm based on least logarithmic hyperbolic cosine loss

Kernel adaptive filters (KAFs) have sparked substantial attraction for online non-linear learning applications. It is noted that the effectiveness of KAFs is highly reliant on a rational learning criterion. Concerning this, the logarithmic hyperbolic cosine (lncosh) criterion with better robustness and convergence has drawn attention in recent studies. However, existing lncosh loss-based KAFs use the stochastic gradient descent (SGD) for optimization, which lack a trade-off between the convergence speed and accuracy. But recursion-based KAFs can provide more effective filtering performance. Therefore, a Nyström method-based robust sparse kernel recursive least lncosh loss algorithm is derived in this article. Experiments via measures and synthetic data against the non-Gaussian noise confirm the superiority with regard to the robustness, accuracy performance, and computational cost.

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来源期刊
Journal of Electronic Science and Technology
Journal of Electronic Science and Technology Engineering-Electrical and Electronic Engineering
CiteScore
4.30
自引率
0.00%
发文量
1362
审稿时长
99 days
期刊介绍: JEST (International) covers the state-of-the-art achievements in electronic science and technology, including the most highlight areas: ¨ Communication Technology ¨ Computer Science and Information Technology ¨ Information and Network Security ¨ Bioelectronics and Biomedicine ¨ Neural Networks and Intelligent Systems ¨ Electronic Systems and Array Processing ¨ Optoelectronic and Photonic Technologies ¨ Electronic Materials and Devices ¨ Sensing and Measurement ¨ Signal Processing and Image Processing JEST (International) is dedicated to building an open, high-level academic journal supported by researchers, professionals, and academicians. The Journal has been fully indexed by Ei INSPEC and has published, with great honor, the contributions from more than 20 countries and regions in the world.
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