DocumentCode
2393222
Title
Improving QRS detection for artifacts reduction
Author
Zeraatkar, Elham ; Kermani, Saeed ; MehriDehnavi, Alireza ; Aminzadeh, Arash
Author_Institution
Biomed Eng., Isfahan Univ Med. of Sci., Isfahan, Iran
fYear
2010
fDate
3-4 Nov. 2010
Firstpage
1
Lastpage
4
Abstract
Since the QRS complex in electrocardiogram signals is one of the most important tasks to describe the operation of heart, high accuracy detection for this complex should be considered. In this study one of the newest methods of QRS complex detection combined with several artifact sources reduction methods has been performed. QRS detection algorithm includes baseline drift removal, Butterworth filtering, notch filtering and extracting five special features from ECG to identify QRS complex. In order to validate the robustness of this method, four important artifact sources such as power line interference, electrode contact noise, motion artifact and muscle contraction (EMG) have been produced and combined with ECG signal. The performance of this approach against these noises based on three MIT-BIH recording classes (Normal, LQT and TWA) has been discussed with ROC (Receiver Operating Characteristics). With proposed QRS detection algorithm 100% and 94.88% accuracy has been achieved in best and worst case respectively. Thus this method has the ability to cancel respiration modulation and reduce EMG noise, motion and power line artifacts effectively.
Keywords
Butterworth filters; biomedical electrodes; electrocardiography; electromyography; medical signal processing; noise; pneumodynamics; sensitivity analysis; Butterworth filtering; ECG; EMG noise; MIT-BIH recording class; QRS complex detection; QRS detection algorithm; ROC analysis; artifact source reduction method; electrocardiogram signals; electrode contact noise; heart; high accuracy detection; muscle contraction; notch filtering; power line artifacts; power line interference; receiver operating characteristic analysis; respiration modulation; Cardiology; Databases; Electromyography; Modulation; Muscles; Noise reduction; Transforms; EMG; QRS complex; ROC; abrupt shift; power line; respiration modulation;
fLanguage
English
Publisher
ieee
Conference_Titel
Biomedical Engineering (ICBME), 2010 17th Iranian Conference of
Conference_Location
Isfahan
Print_ISBN
978-1-4244-7483-7
Type
conf
DOI
10.1109/ICBME.2010.5704922
Filename
5704922
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