Analisis Non-Stasioner pada Deteksi Non-Invasive Sinyal Suara Jantung Koroner
Abstract
Feature extraction has become a very important factor in electronic heart sound diagnosis system development. Therefore, it is necessary to conduct a research to find an effective feature extraction method. This research has learned more about feature extraction method, using non-stationary signal processing, Short Time Fourier Transform (STFT) to extract three coronary heart disease signals. The results show that the first signal has an average frequency of 505,56±8,82 Hz. This signal is detected on an average window of 21,44±2,92, and has an average time of 0,05±0,02 s. The second signal has an average frequency of 376,11±2,20 Hz, with average window of 141,67±2,5, and average time of 0,35±0,02 s. The results of feature extraction on the third signal shows an average frequency of 217,14±12,78 Hz, average window of 74,29±4,16, and the average time is 0,17±0,02 s. This results indicates that the entire frequency has an average value of more than 200 Hz.
References
Lande,R dan Pelupessy, Bunyi jantung Cermin Dunia Kedokteran, Universitas Hasanudin, 1989.
Akay, M., Noninvasive detection of coronary stenoses before and after angioplasty using eigenvector methods., IEEE, 1990, trans. vol. 37.
Popov, B., Automated Extraction of Aortic and Pulmonary Components of the Second Heart Sound for the Estimations of Pulmonary Artery Pressure, IEEE EMBS, 2004.
Lehrer, M.D. Lehrer, Steven.,Memahami Bunyi dan Bising Jantung Anak.Alih Bahasa Dr. Damayanti, DSA, Jakarta Barat: Binarupa Aksara, 1994.
Barkat, M., Signal detection and estimation, Canton Street Norwood: Artech House, Inc, 2005.
Emanuel S dan D. abner J, .Rapid Interpretation of heart sound and murmurs (Interpretasi Akurat Bunyi Jantung), Second Edition, Alih bahasa: Soenarno, dr, Penerbit buku kedokteran., 1994.
Obaidat, MS, Phonocardiogram Signal Analysis: techniques and performance comparison, Journal of medical engineering and technology, 1993.
Abbas, K dan Bassam, Rasha, Phonocardiography Signal Processing, Morgan & Claypool Publisher, 2009.
Schmidt, Samuel E. John Hansen, Henrik Zimmermann, Dorte Hammershøi, Egon Toft,, Coronary Artery Disease and Low Frequency Heart Sound Signatures, Denmark:Department of Electronic Systems, Aalborg University.
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