Proceedings of Third International Conference on Electronics, Circuits, and Systems
DOI: 10.1109/icecs.1996.584609
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Multiresolution analysis of heart sounds

Abstract: The wavelet transform, which is a new time-scale technique suitable for transient signal detection is applied to phonocardiogram signals taken from group of patients. It has been shown that using this new technique the separation between normal and abnormal subject could easily be obtained. Moreover, a separation between the high frequency systolic and diastolic murmurs, and the low frequency systolic and diastolic murmurs can be achieved. Furthermore, the temporal location of the auscultatory gap can be detec… Show more

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Cited by 7 publications
(4 citation statements)
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“…This offers little advantage, because the duration of systolic murmurs changes across patients and cardiac abnormalities. A large number of time-frequency (White et al 1997, Asir et al 1996a, Shino et al 1997, Haghighi-Mood and Torry 1997, Kim and Tavel 2003 and wavelet (Tovar-Corona and Torry 1998, Asir et al 1996b, Liang and Hartimo 1998, Reed et al 2004 based techniques, which have time/frequency resolution problems, have been proposed to detect and analyze heart murmurs. However, no generic algorithm has been proposed to facilitate their extraction from the PCG.…”
Section: Murmur Type Physical Characteristicsmentioning
confidence: 99%
“…This offers little advantage, because the duration of systolic murmurs changes across patients and cardiac abnormalities. A large number of time-frequency (White et al 1997, Asir et al 1996a, Shino et al 1997, Haghighi-Mood and Torry 1997, Kim and Tavel 2003 and wavelet (Tovar-Corona and Torry 1998, Asir et al 1996b, Liang and Hartimo 1998, Reed et al 2004 based techniques, which have time/frequency resolution problems, have been proposed to detect and analyze heart murmurs. However, no generic algorithm has been proposed to facilitate their extraction from the PCG.…”
Section: Murmur Type Physical Characteristicsmentioning
confidence: 99%
“…The heart sounds are multi-component, nonstationary signals (El-Asir and Mayyas 2004, Wood and Barry 1995, Xu et al 2001). …”
Section: Acoustic Monitor For Cardiac Soundsmentioning
confidence: 99%
“…The abrupt frequency changes, the complex and highly nonstationary nature of the heart sound signals make the heart sound signal analysis a tedious job. The FFT and wavelet approaches have been applied to this in various studies and the work of correlating the heart sounds with the heart defects has been done [5][6][7][8][9][10]. Some related works to this study are as follows: where T1 and T2 are the widths of the first sound S1 and the second sound S2, T11 is the time interval between two abutted S1, which indicates the heart beat rhythm condition and T12 is the time interval between S1 and S2, which is an indicator to express the heart valvular murmurs [14].…”
Section: Previous Workmentioning
confidence: 99%