带彩色噪声的输出误差模型的基于滤波的偏差补偿递归估计算法

IF 1.8 3区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

Circuits, Systems and Signal Processing Pub Date : 2024-05-31 DOI:10.1007/s00034-024-02730-1

Zhenwei Shi, Lincheng Zhou, Haodong Yang, Xiangli Li, Mei Dai

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引用次数: 0

摘要

对于输出被彩色过程噪声（即相关噪声）污染的输出误差（OE）模型，本文通过数据滤波技术和偏差补偿原理推导出一种新形式的偏差补偿递推最小二乘法（BCRLS）算法。其基本思想是，首先在每次递归计算中采用数据滤波技术，将受彩色过程噪声干扰的 OE 模型转化为简单的白噪声 OE 模型，然后在新的 OE 模型基础上利用偏差补偿技术计算偏差补偿项。最后，消除待识别 OE 模型有偏 RLS 参数估计中的偏差项，从而实现其无偏参数估计。与之前的 BCRLS 算法不同，该算法无需计算复杂的噪声相关函数，即可在存在彩色过程噪声的情况下实现对 OE 系统的无偏参数估计。本文通过三个数字仿真实例展示了所提算法的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Filtering-Based Bias-Compensation Recursive Estimation Algorithm for an Output Error Model with Colored Noise

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Filtering-Based Bias-Compensation Recursive Estimation Algorithm for an Output Error Model with Colored Noise

For the output error (OE) models whose outputs are contaminated by colored process noises (i.e., correlated noises), this paper derives a new form of bias compensation recursive least squares (BCRLS) algorithm by means of the data filtering technology and the bias compensation principle. The basic idea is to firstly transform the OE model disturbed by colored process noise into a simple OE model with the white noise by adopting the data filtering technology at each recursive calculation, and then to calculate the bias compensation term, based on the new OE model with the bias-compensation technique. Finally, eliminate this bias term in the biased RLS parameter estimation of the OE model to be identified, thereby achieving its unbiased parameter estimation. Unlike the previous BCRLS algorithm, this algorithm can still achieve unbiased parameter estimation of OE systems in the presence of colored process noise without calculating complex noise correlation functions. The performance of the proposed algorithm is demonstrated through three digital simulation examples.

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来源期刊

Circuits, Systems and Signal Processing 工程技术-工程：电子与电气

CiteScore

4.80

自引率

13.00%

发文量

321

审稿时长

4.6 months

期刊介绍： Rapid developments in the analog and digital processing of signals for communication, control, and computer systems have made the theory of electrical circuits and signal processing a burgeoning area of research and design. The aim of Circuits, Systems, and Signal Processing (CSSP) is to help meet the needs of outlets for significant research papers and state-of-the-art review articles in the area. The scope of the journal is broad, ranging from mathematical foundations to practical engineering design. It encompasses, but is not limited to, such topics as linear and nonlinear networks, distributed circuits and systems, multi-dimensional signals and systems, analog filters and signal processing, digital filters and signal processing, statistical signal processing, multimedia, computer aided design, graph theory, neural systems, communication circuits and systems, and VLSI signal processing. The Editorial Board is international, and papers are welcome from throughout the world. The journal is devoted primarily to research papers, but survey, expository, and tutorial papers are also published. Circuits, Systems, and Signal Processing (CSSP) is published twelve times annually.