具有相关噪声的随机不确定多传感器系统的顺序不敏感最优广义序列融合估计

IF 1.1 4区工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC

IET Signal Processing Pub Date : 2023-05-02 DOI:10.1049/sil2.12217

Dejin Wang, Zhongxin Liu, Zengqiang Chen

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引用次数: 0

摘要

研究了多传感器随机不确定系统在线性最小方差意义下的全局最优广义序列融合算法。具体来说，在GSF算法中，考虑了测量噪声的估计，并在第ath个接收时刻融合了ma（ma≥1）个传感器的测量数据，这使得它非常灵活，适合实际应用。集中式和顺序融合算法是所提出的GSF算法的特殊情况。此外，对于任何ma，a=1，2，…，M，GSF算法的估计值保持不变并且全局最优。此外，在所提出的GSF算法中，还证明了估计值与融合阶数之间的独立性。最后给出了仿真结果，验证了该算法的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

An order insensitive optimal generalised sequential fusion estimation for stochastic uncertain multi-sensor systems with correlated noise

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An order insensitive optimal generalised sequential fusion estimation for stochastic uncertain multi-sensor systems with correlated noise

The globally optimal generalised sequential fusion (GSF) algorithm in the sense of linear minimum variance for multi-sensor stochastic uncertain systems is investigated by the authors. Specifically, in the GSF algorithm, the estimation of measurement noise is considered, and m_a (m_a ≥ 1) sensors' measurement data are fused at the ath reception instant, which makes it very flexible and suitable for practical applications. The centralised and sequential fusion algorithms are special cases of the proposed GSF algorithm. Furthermore, for any m_a, a = 1, 2, …, M, the estimated values of the GSF algorithm remain invariant and globally optimal. Moreover, the independence between the estimated values and fusion order is proved in the proposed GSF algorithm. Finally, simulation results are given to demonstrate the usefulness of the developed algorithm.

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来源期刊

IET Signal Processing 工程技术-工程：电子与电气

CiteScore

3.80

自引率

5.90%

发文量

审稿时长

9.5 months

期刊介绍： IET Signal Processing publishes research on a diverse range of signal processing and machine learning topics, covering a variety of applications, disciplines, modalities, and techniques in detection, estimation, inference, and classification problems. The research published includes advances in algorithm design for the analysis of single and high-multi-dimensional data, sparsity, linear and non-linear systems, recursive and non-recursive digital filters and multi-rate filter banks, as well a range of topics that span from sensor array processing, deep convolutional neural network based approaches to the application of chaos theory, and far more. Topics covered by scope include, but are not limited to: advances in single and multi-dimensional filter design and implementation linear and nonlinear, fixed and adaptive digital filters and multirate filter banks statistical signal processing techniques and analysis classical, parametric and higher order spectral analysis signal transformation and compression techniques, including time-frequency analysis system modelling and adaptive identification techniques machine learning based approaches to signal processing Bayesian methods for signal processing, including Monte-Carlo Markov-chain and particle filtering techniques theory and application of blind and semi-blind signal separation techniques signal processing techniques for analysis, enhancement, coding, synthesis and recognition of speech signals direction-finding and beamforming techniques for audio and electromagnetic signals analysis techniques for biomedical signals baseband signal processing techniques for transmission and reception of communication signals signal processing techniques for data hiding and audio watermarking sparse signal processing and compressive sensing Special Issue Call for Papers: Intelligent Deep Fuzzy Model for Signal Processing - https://digital-library.theiet.org/files/IET_SPR_CFP_IDFMSP.pdf