基于最近邻Kronecker积分解的递推最小二乘算法

Camelia Elisei-Iliescu, C. Paleologu, J. Benesty, S. Ciochină
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引用次数: 10

摘要

递推最小二乘(RLS)自适应滤波器由于其快速的收敛速度而成为系统辨识问题中一个很有吸引力的选择。然而,该算法计算非常复杂,这可能使其无法识别长脉冲响应,如回波抵消。本文重点研究了一种提高RLS算法效率的新方法。其基本思想是利用基于最近邻克罗内克积和低秩近似的脉冲响应分解。因此,一个高维系统识别问题被重新表述为低维问题,它们被张拉在一起。仿真结果表明,基于该方法的RLS算法具有良好的性能。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Recursive Least-squares Algorithm Based on the Nearest Kronecker Product Decomposition
The recursive least-squares (RLS) adaptive filter is an appealing choice in system identification problems, mainly due to its fast convergence rate. However, this algorithm is computationally very complex, which may make it useless for the identification of high length impulse responses, like in echo cancellation. In this paper, we focus on a new approach to improve the efficiency of the RLS algorithm. The basic idea is to exploit the impulse response decomposition based on the nearest Kronecker product and low-rank approximation. Thus, a high-dimension system identification problem is reformulated in terms of low-dimension problems, which are tensorized together. Simulations performed in the context of echo cancellation indicate the good performance of the RLS algorithm based on this approach.
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