Effective Learning and Filtering of Faulty Heart-Beats for Advanced ECG Arrhythmia Detection using MIT-BIH Database

Authors

  • Vasileios Tsoutsouras N.T.U.A.
  • Dimitra Azariadi N.T.U.A.
  • Sotirios Xydis N.T.U.A
  • Dimitrios Soudris N.T.U.A

DOI:

https://doi.org/10.4108/eai.14-10-2015.2261640

Keywords:

ecg analysis, support-vector-machine (svm), machine learning, false heart-beat filtering

Abstract

Electrocardiogram (ECG) signal has been established as one of the most fundamental bio-signals for monitoring and assessing the health status of a person. ECG analysis flow relies on the detection of points of interest on the signal with the QRS complex, located around an R peak of the heart beat, being the most commonly used. Using the MIT-BIH arrhythmia database, we evaluate the accuracy of various R peak detectors, showing a large number, i.e. several thousands, of falsely detected peaks. Considering the medical significance of the ECG analysis, we propose a machine learning based classifier to be incorporated in the ECG analysis flow aiming at identifying and discarding heart beats based on erroneously detected R peaks. Using Support Vector Machines (SVMs) and extensive exploration, we deliver a tuned classifier that i) successfully filters up to 75% of the false beats, ii) while keeping the correct beats mis-classified as false lower than 0.01% and iii) the computational overhead of the classifier sufficiently low.

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Published

22-12-2015

How to Cite

1.
Tsoutsouras V, Azariadi D, Xydis S, Soudris D. Effective Learning and Filtering of Faulty Heart-Beats for Advanced ECG Arrhythmia Detection using MIT-BIH Database. EAI Endorsed Trans Perv Health Tech [Internet]. 2015 Dec. 22 [cited 2024 Nov. 25];2(8):e5. Available from: https://publications.eai.eu/index.php/phat/article/view/1327