Heart problems are increasing frequently day by day and ECG reflects the activities and the attributes of the human heart. The information extracted from the signal is used for analysis and identifying various pathological conditions, but these ECG signal can be distorted with noise as Electrocardiogram (ECG) signals are the electrical recording of heart activity. These signals are very low frequency signals of about 0.5Hz -100Hz. Noise can be any interference due to motion artifacts or due to power equipment that are present where ECG had been taken. A typical computer based ECG analysis system includes a signal pre-processing, beats detection and feature extraction stages, followed by classification. Automatic identification of arrhythmias from the ECG is one important biomedical application of pattern recognition. Moreover ECG signal processing has become a prevalent and effective tool for research and clinical practices. This paper focuses on ECG signal processing using Notch Filter for biomedical application.

ECG, Signal Pre-processing, Pattern recognition, Noise

[1] R.S Khandpur, “Biomedical instrumentation hand book”, 11th reprint 2008 Tata McGraw –Hill publication company Limited New Delhi. ISBN-13: 978-0-07-0473355-3.
[2] Stephen J. chapman “MATLAB programming for engineers” 3rd Reprint Edition 2003 by Thomson asia Pte Ltd., Singapore ISBN: 981-240-606-9.
[3] Malindi, P., “Cancelling power line interference in electrophysiological signals”. ECT Research Journal, Vol.2, 2002
[4] Widrow B. and Hoff M.E. (1960), “Adaptive switching circuits”, In IREWESCON Convention Record, pp. 96-104, New York.
[5] Zhang Jiashu, Tai Heng-Ming, “Adaptive Noise Cancellation Algorithm for Speech Processing”, IEEE Transactions, pp 2489-2492, 2007.
[6] Jigram H. Shah, Jay M. Joshi, “Digital signal processing”, University science press laxmi publication company Limited New Delhi.
[7] Suzanna M. M. Martens, Massimo Mischi, S. Guid Oei, “An Improved Adaptive Power Line Interference Canceller for Electrocardiography” IEEE transactions on biomedical engineering, vol. 53, no. 11, November 2006.
[8] Syed Zahurul Islam, Syed Zahidul Islam, Razali Jidin, Mohd. Alauddin Mohd. Ali, “Performance Study of Adaptive Filtering Algorithms for Noise Cancellation of ECG Signal”, IEEE 2009.
[9] Y. Mollaei, “Hardware implementation of adaptive filters,” 2009 IEEE Student Conference on Research and Development (SCOReD), 2009.
[10] Thakor N.V. and Zhu Y.S. (1991), “Applications of adaptive filtering to ECG analysis: noise cancellation and arrhythmia detection” , IEEE Transaction on Biomedical Engineering, Vol. 38, Issue No. 8, pp. 785-794.
[11] Ban-Hoe Kwan, Kok-Meng Ong and Paramesran R., “Noise removal of ECG signals using legendre moments”, 27th Annual International Conference on Engineering in Medicine and Biology Society, pp. 5627-5630, 2005.
[12] Hae-Jeong Park, Do-Un Jeong and Kwang- Suk Park, “Automated detection and elimination of periodic ECG artifacts in EEG using the energy interval histogram method”, IEEE Transactions on Biomedical Engineering, Vol. 49, Issue No. 12, pp. 1526- 1533, 2002.
[13] Barbosa P.R.B., Barbosa-Filho J., De Sa C.A.M., Barbosa E.C. and Nadal J., “Reduction of electromyographic noise in the signal-averaged electrocardiogram by spectral decomposition”, IEEE Transactions on Biomedical Engineering, Vol. 50, Issue No. 1, pp. 114-117, 2003.