Introducing the Orthogonal Periodic Sequences for the Identification of Functional Link Polynomial Filters

A. Carini, S. Orcioni, S. Cecchi
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引用次数: 3

Abstract

The paper introduces a novel family of deterministic signals, the orthogonal periodic sequences (OPSs), for the identification of functional link polynomial (FLiP) filters. The novel sequences share many of the characteristics of the perfect periodic sequences (PPSs). As the PPSs, they allow the perfect identification of a FLiP filter on a finite time interval with the cross-correlation method. In contrast to the PPSs, OPSs can identify also non-orthogonal FLiP filters, as the Volterra filters. With OPSs, the input sequence can have any persistently exciting distribution and can also be a quantized sequence. OPSs can often identify FLiP filters with a sequence period and a computational complexity much smaller than that of PPSs. Several results are reported to show the effectiveness of the proposed sequences identifying a real nonlinear audio system.
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引入正交周期序列用于函数链多项式滤波器的辨识
本文引入了一种新的确定性信号族——正交周期序列(OPSs),用于函数链多项式滤波器的辨识。新序列具有完美周期序列(PPSs)的许多特征。作为pps,它们允许在有限时间间隔内用互相关方法完美地识别翻转滤波器。与pps相比,ops还可以识别非正交FLiP滤波器,如Volterra滤波器。使用ops,输入序列可以具有任何持久的激励分布,也可以是量化序列。ops通常可以识别具有序列周期和计算复杂度的FLiP滤波器。实验结果表明了所提序列识别实际非线性音频系统的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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