Comparing stress ECG enhancement algorithms

Author

Afonso, Valtino X. ; Tompkins, Willis J. ; Nguyen, Truong Q. ; Michler, Kurt ; Luo, Shen

Author_Institution

Dept. of Electr. & Comput. Eng., Wisconsin Univ., Madison, WI, USA

Volume

15

Issue

3

fYear

1996

Firstpage

37

Lastpage

44

Abstract

There are two predominant types of noise that contaminate the electrocardiogram (EGG) acquired during a stress test: the baseline wander noise (BW) and electrode motion artifact, and electromyogram-induced noise (EMG). BW noise is at a lower frequency, caused by respiration and motion of the subject or the leads. The frequency components of BW noise are usually below 0.5 Hz, and extend into the frequency range of the ST segment during a stress test. EMG noise, on the other hand, is predominantly at higher frequencies, caused by increased muscle activity and by mechanical forces acting on the electrodes. The frequency spectrum of the EMG noise overlaps that of the ECG signal and extends even higher in the frequency domain. In this article, the authors review some of the published ECG enhancing techniques to overcome the noise problems, and compare their performance on stress ECG signals under adverse noise scenarios. They also describe the filter bank-based ECG enhancing algorithm

Keywords

electrocardiography; medical signal processing; 0.5 Hz; ST segment; adverse noise scenarios; baseline wander noise; electrocardiogram contamination; electrode motion artifact; electromyogram-induced noise; filter bank-based ECG enhancing algorithm; frequency domain; frequency spectrum; respiration; stress ECG enhancement algorithms; stress test; subject motion; Adaptive filters; Electrocardiography; Electrodes; Electromyography; Filter bank; Frequency; Noise figure; Spline; Stress; Testing;

fLanguage

English

Journal_Title

Engineering in Medicine and Biology Magazine, IEEE

Publisher

ieee

ISSN

0739-5175

Type

jour

DOI

10.1109/51.499756

Filename

499756