A Fast Kernel Least Mean Square Algorithm

IF 1.3 Q3 COMPUTER SCIENCE, INFORMATION SYSTEMS IET Networks Pub Date : 2022-10-14 DOI:10.1109/IET-ICETA56553.2022.9971688
Yijie Tang, Hailong Yan, Jialong Tang, Ying-Ren Chien
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引用次数: 1

Abstract

To deal with the problems in the nonlinear system, the kernel adaptive filter (KAF) was proposed by processing data in the reproducing kernel Hilbert space (RKHS). However, the kernel method dramatically improves the amount of calculation of the filter, which limits its application in practical problems. Furthermore, a critical factor in a large amount of KAF computation is due to its slow convergence speed, which requires a large amount of training data to participate in the calculation. If we can accelerate the convergence speed of KAF, the amount of training data can be reduced, thereby reducing the amount of KAF computation. This paper proposes a fast kernel least mean square algorithm (FAST-KLMS) by adaptively updating step size to address this issue. To verify the superiority of FAST-KLMS, we have applied it to the simulations of nonlinear channel equalization. The simulation results show that FAST-KLMS needs less training data to complete the convergence, which has improved the filtering performance of KAF.
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一种快速核最小均方算法
为了解决非线性系统中的问题,提出了核自适应滤波器(KAF),通过对再现核希尔伯特空间(RKHS)中的数据进行处理。然而,核方法极大地提高了滤波器的计算量,限制了其在实际问题中的应用。此外,大量KAF计算的一个关键因素是其收敛速度慢,这需要大量的训练数据参与计算。如果我们可以加快KAF的收敛速度,就可以减少训练数据的数量,从而减少KAF的计算量。本文提出一种自适应更新步长的快速核最小均方算法(fast - klms)来解决这一问题。为了验证FAST-KLMS的优越性,我们将其应用于非线性信道均衡的仿真。仿真结果表明,FAST-KLMS只需较少的训练数据即可完成收敛,提高了KAF的滤波性能。
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来源期刊
IET Networks
IET Networks COMPUTER SCIENCE, INFORMATION SYSTEMS-
CiteScore
5.00
自引率
0.00%
发文量
41
审稿时长
33 weeks
期刊介绍: IET Networks covers the fundamental developments and advancing methodologies to achieve higher performance, optimized and dependable future networks. IET Networks is particularly interested in new ideas and superior solutions to the known and arising technological development bottlenecks at all levels of networking such as topologies, protocols, routing, relaying and resource-allocation for more efficient and more reliable provision of network services. Topics include, but are not limited to: Network Architecture, Design and Planning, Network Protocol, Software, Analysis, Simulation and Experiment, Network Technologies, Applications and Services, Network Security, Operation and Management.
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