基于张量的高阶多元奇异谱分析及其在多通道生物医学信号分析中的应用

IF 3.4 2区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

Signal Processing Pub Date : 2025-06-02 DOI:10.1016/j.sigpro.2025.110113

Thanh Trung Le , Karim Abed-Meraim , Nguyen Linh Trung , Philippe Ravier , Olivier Buttelli , Ales Holobar

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引用次数: 0

摘要

奇异谱分析（SSA）是一种将时间序列信号分解为可解释分量的非参数谱估计方法。随着大时间序列的兴起，对有效和可扩展的SSA技术的需求日益迫切。在本文中，我们提出了一种新的多路SSA扩展，称为高阶多变量SSA (HO-MSSA)，专门用于通过张量分解进行多变量和多通道时间序列信号分析。HO-MSSA利用时延嵌入和张量奇异值分解将多通道时间序列信号转换成轨迹张量，然后在傅里叶域中分解成初等分量，而不是像传统的SSA方法那样在时域分解。使用谱聚类将这些分量分组为不相交的子集，从而能够重建底层源信号。实验结果表明，HO-MSSA在各种生物医学应用中优于最先进的SSA方法，包括肌电图（EMG）、心电图（ECG）和脑电图（EEG）信号。

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Tensor-based higher-order multivariate singular spectrum analysis and applications to multichannel biomedical signal analysis

Singular spectrum analysis (SSA) is a nonparametric spectral estimation method that decomposes time series signals into interpretable components. With the rise of big time series, the demand for effective and scalable SSA techniques has become increasingly urgent. In this paper, we propose a novel multiway extension of SSA, called higher-order multivariate SSA (HO-MSSA), specifically designed for multivariate and multichannel time series signal analysis via tensor decomposition. HO-MSSA utilizes time-delay embedding and tensor singular value decomposition to transform multichannel time series signals into trajectory tensors, which are then decomposed into elementary components in the Fourier domain, rather than the time domain as in traditional SSA methods. These components are grouped into disjoint subsets using spectral clustering, enabling the reconstruction of the underlying source signals. Experimental results demonstrate that HO-MSSA outperforms state-of-the-art SSA methods in various biomedical applications, including electromyography (EMG), electrocardiography (ECG), and electroencephalogram (EEG) signals.

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来源期刊

Signal Processing 工程技术-工程：电子与电气

CiteScore

9.20

自引率

9.10%

发文量

309

审稿时长

41 days

期刊介绍： Signal Processing incorporates all aspects of the theory and practice of signal processing. It features original research work, tutorial and review articles, and accounts of practical developments. It is intended for a rapid dissemination of knowledge and experience to engineers and scientists working in the research, development or practical application of signal processing. Subject areas covered by the journal include: Signal Theory; Stochastic Processes; Detection and Estimation; Spectral Analysis; Filtering; Signal Processing Systems; Software Developments; Image Processing; Pattern Recognition; Optical Signal Processing; Digital Signal Processing; Multi-dimensional Signal Processing; Communication Signal Processing; Biomedical Signal Processing; Geophysical and Astrophysical Signal Processing; Earth Resources Signal Processing; Acoustic and Vibration Signal Processing; Data Processing; Remote Sensing; Signal Processing Technology; Radar Signal Processing; Sonar Signal Processing; Industrial Applications; New Applications.