DocumentCode
954278
Title
A comparison of the noise sensitivity of nine QRS detection algorithms
Author
Friesen, Gary M. ; Jannett, Thomas C. ; Jadallah, Manal Afify ; Yates, Stanford L. ; Quint, Stephen R. ; Nagle, H. Troy
Author_Institution
Auburn Univ., AL, USA
Volume
37
Issue
1
fYear
1990
Firstpage
85
Lastpage
98
Abstract
The noise sensitivities of nine different QRS detection algorithms were measured for a normal, single-channel, lead-II, synthesized ECG corrupted with five different types of synthesized noise: electromyographic interference, 60-Hz power line interference, baseline drift due to respiration, abrupt baseline shift, and a composite noise constructed from all of the other noise types. The percentage of QRS complexes detected, the number of false positives, and the detection delay were measured. None of the algorithms were able to detect all QRS complexes without any false positives for all of the noise types at the highest noise level. Algorithms based on amplitude and slope had the highest performance for EMG-corrupted ECG. An algorithm using a digital filter had the best performance for the composite-noise-corrupted data.
Keywords
bioelectric potentials; biomedical measurement; digital filters; electrocardiography; interference (signal); noise; sensitivity; 60 Hz; Pb/sup +/; QRS complexes; QRS detection algorithms; abrupt baseline shift; algorithm performance; amplitude based algorithms; baseline drift; composite noise; detected noise percentages; detection delay; digital filter; electromyographic interference; false positives; highest noise level; noise sensitivity; power line interference; respiration; single channel lead-II ECG; slope based algorithms; synthesised noise corrupted ECG; synthesized ECG; Application software; Databases; Detection algorithms; Electrocardiography; Gold; Noise level; Noise measurement; Performance analysis; Signal processing algorithms; Size measurement; Algorithms; Computer Simulation; Electrocardiography; Models, Cardiovascular; Signal Processing, Computer-Assisted; Software;
fLanguage
English
Journal_Title
Biomedical Engineering, IEEE Transactions on
Publisher
ieee
ISSN
0018-9294
Type
jour
DOI
10.1109/10.43620
Filename
43620
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