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Characterising an ECG signal using statistical modelling: a feasibility study

Version 2 2023-06-07, 01:55
Version 1 2016-03-16, 13:45
journal contribution
posted on 2023-06-07, 01:55 authored by TA Bodisco, J D'Netto, N Kelson, J Banks, R Hayward, T Parker
For clinical use, in electrocardiogram (ECG) signal analysis it is important to detect not only the centre of the P wave, the QRS complex and the T wave, but also the time intervals, such as the ST segment. Much research focused entirely on qrs complex detection, via methods such as wavelet transforms, spline fitting and neural networks. However, drawbacks include the false classification of a severe noise spike as a QRS complex, possibly requiring manual editing, or the omission of information contained in other regions of the ECG signal. While some attempts were made to develop algorithms to detect additional signal characteristics, such as P and T waves, the reported success rates are subject to change from person-to-person and beat-to-beat. To address this variability we propose the use of Markov-chain Monte Carlo statistical modelling to extract the key features of an ECG signal and we report on a feasibility study to investigate the utility of the approach. The modelling approach is examined with reference to a realistic computer generated ECG signal, where details such as wave morphology and noise levels are variable.

History

Journal

Australia and New Zealand industrial and applied mathematics (ANZIAM) journal

Volume

55

Pagination

C32-C46

Location

Canberra, A.C.T.

ISSN

1446-1811

Language

eng

Publication classification

C Journal article, C1.1 Refereed article in a scholarly journal

Copyright notice

2014, Australian Mathematical Society

Publisher

Australian Mathematical Society

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