期刊论文详细信息
Healthcare Technology Letters
Exploiting multi-lead electrocardiogram correlations using robust third-order tensor decomposition
article
Sibasankar Padhy1  Samarendra Dandapat1 
[1] Department of Electronics and Electrical Engineering, Indian Institute of Technology Guwahati
关键词: electrocardiography;    medical signal processing;    singular value decomposition;    signal denoising;    encoding;    multilead electrocardiogram correlations;    robust third-order tensor decomposition;    MECG;    storage data;    order-3 tensor structure;    dimension reduction;    successive beats;    intra-beat beats;    inter-beat beats;    inter-lead;    higher-order singular value decomposition;    multiscale analysis;    P-wave;    QRS-complex;    ST-segment;    T-wave;    high-frequency noise;    noise removal;    PTB diagnostic database;    compression ratio;    diagnostic distortion level;    ECG wave segmentation;   
DOI  :  10.1049/htl.2015.0020
学科分类:肠胃与肝脏病学
来源: Wiley
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【 摘 要 】

In this Letter, a robust third-order tensor decomposition of multi-lead electrocardiogram (MECG) comprising of 12-leads is proposed to reduce the dimension of the storage data. An order-3 tensor structure is employed to represent the MECG data by rearranging the MECG information in three dimensions. The three-dimensions of the formed tensor represent the number of leads, beats and samples of some fixed ECG duration. Dimension reduction of such an arrangement exploits correlations present among the successive beats (intra-beat and inter-beat) and across the leads (inter-lead). The higher-order singular value decomposition is used to decompose the tensor data. In addition, multiscale analysis has been added for effective care of ECG information. It grossly segments the ECG characteristic waves (P-wave, QRS-complex, ST-segment and T-wave etc.) into different sub-bands. In the meantime, it separates high-frequency noise components into lower-order sub-bands which helps in removing noise from the original data. For evaluation purposes, we have used the publicly available PTB diagnostic database. The proposed method outperforms the existing algorithms where compression ratio is under 10 for MECG data. Results show that the original MECG data volume can be reduced by more than 45 times with acceptable diagnostic distortion level.

【 授权许可】

CC BY|CC BY-ND|CC BY-NC|CC BY-NC-ND   

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