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In recent years, adaptive filtering has become one of the effective and popular approaches for the processing and analysis of the signals with noise especially of the biomedical signals. Adaptive filters permit to detect time varying potentials and to track the dynamic variations of the signals. Besides, they modify their behavior according to the input signal. Therefore, they can detect shape variations in the ensemble and thus they can obtain a better signal estimation. The aim of this paper is to study, analyze various adaptive filter algorithms and apply Mat lab to investigate their performance behaviors with two step sizes of 0.02 and 0.04. Further to remove motion artifacts from Electrocardiogram signal as an application of this concepts. At the end of this paper, a performance study has been done between these algorithms based on various step sizes. It has been found that there will be always tradeoff between step sizes and Mean square error. The Electrocardiogram signals used in this paper are from the MIT-BIH database. Elimination of noises from Electrocardiogram signal example is a classical problem.

Adaptive Filter, Least Mean Square (LMS), Normalized Lms (NLMS), Block Lms (BLMS), Sign Lms (SLMS), Signed Regressor Lms (SRLMS), Motion Artifact

B. Widrow, J. Glover, J. M. McCool, J. Kaunitz, C. S Williams, R. H.Hearn, J. R. Zeidler, E.Dong, and R Goodlin,“Adaptive noise cancelling: Principles and. applications ”, Proc. IEEE, vol.63, pp.1692-1716, Dec. 1975.

A. K. Barros and N. Ohnishi, “MSE behavior of biomedical event-related filters," IEEE Trans. Biomed. Eng., vol. 44, pp. 848-855, Sept.1997.

O. Sayadi and M. B. Shamsollahi, “Model-based fiducial points extraction for baseline wander electrocardiograms," IEEE Trans. Biomed. Eng., vol. 55, pp. 347-35 1, Jan.2008.

Y. Der Lin and Y. Hen Hu, “Power-line interference detection and suppression in ECG signal processing," IEEE Trans. Biomed. Eng., vol. 55, pp. 354-357, Jan.2008.

N. V. Thakor and Y.-S. Zhu, “Applications of adaptive filtering to ECG analysis: noise cancellation and arrhythmia detection," IEEE Transactions on Biomedical Engineering, vol. 38,no. 8, pp. 785-794, 1991.

Ziarani. A. K, Konrad. A, “A nonlinear adaptive method of elimination of power line interference in ECG signals", IEEE Transactions on Biomedical Engineering, Vol49, No.6,pp.540-547, 2002.

S. Olmos , L. Sornmo and P. Laguna, “Block adaptive filter with deterministic reference inputs for event-related signals:BLMS and BRLS," IEEE Trans. Signal Processing, vol. 50, pp. 1102-1112, May.2002.

Allan Kardec Barros and Noboru Ohnishi, “MSE Behavior of Biomedical Event-Related Filters” IEEE Transactions on Biomedical Engineering, 44( 9), September 1997.

Ahmed I. Sulyman, Azzedine Zerguine, “Convergence and Steady-State Analysis of a Variable Step-Size Normalized LMS Algorithm”, IEEE 2003.

S.C.Chan, Z.G.Zhang, Y.Zhou, and Y.Hu, “A New Noise-Constrained Normalized Least Mean Squares Adaptive Filtering Algorithm”, IEEE 2008.

Desmond B. Keenan, Paul Grossman, “Adaptive Filtering of Heart Rate Signals for an Improved Measure of Cardiac Autonomic Control”. International Journal of Signal Processing-2006.

Monson Hayes H. “Statistical Digital Signal Processing and Modelling” – John Wiley & Sons 2002.

S. A. Jimaa, A.Simiri, R. M. Shubair, and T. Shimamura, “Collings, “ Interference-Normalized Least Mean Square Algorithm”, IEEE Signal Processing Letters, 14(12), December 2007.[14] Convergence Evaluation of Variable Step-Size NLMS Algorithm in Adaptive Channel Equalization” IEEE 2009.

Hideki Takekawa,Tetsuya Shimamura and Shihab Jimaa, “An Efficient and Effective Variable Step Size NLMS Algorithm” IEEE 2008.

Yue-Der Lin and Yu Hen Hu , “ Power-Line Interference Detection and Suppression in ELECTROCARDIOGRAM Signal Processing” IEEE Transactions on Biomedical Engineering, 55(1), January 2008.

Sachin singh and Dr K. L. Yadav ,” Performance Evaluation Of Different Adaptive Filters For ELECTROCARDIOGRAM Signal Processing” , International Journal on Computer Science and Engineering 02,(05), 2010.

Walter Karlen, Claudio Mattiussi, and Dario Floreano, “Sleep and Wake Classification With ELECTROCARDIOGRAM and Respiratory Effort Signals”, IEEE Transactions on Biomedical Circuits and Systems, 3( 2), April 2009.