Simulation and Performance Analysis of LMS and NLMS Adaptive Filters in Non-stationary Noisy Environment

One of the most important applications of adaptive filter is Interference or noise cancellation. The objective of adaptive interference cancellation is to obtain an estimate of the interfering signal and to subtract it from the corrupted signal and hence obtain a noise free signal. The tracking perf...

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Bibliographic Details
Main Authors: Borisagar, Komal R., Sedani, Bhavin S., Kulkarni, G.R.
Format: Conference Proceeding
Language:English
Subjects:
Adaptive Filter
Adaptive filters
Filtering algorithms
Filtering theory
Least squares approximation
LMS
NLMS
Signal processing algorithms
Speech
Step size
Transversal filters
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Summary:One of the most important applications of adaptive filter is Interference or noise cancellation. The objective of adaptive interference cancellation is to obtain an estimate of the interfering signal and to subtract it from the corrupted signal and hence obtain a noise free signal. The tracking performances of the LMS and NLMS algorithms are compared when the input of the adaptive filter is no stationary For this purpose, the filter uses an adaptive algorithm to change the value of the filter coefficients, so that it acquires a better approximation of the signal after each iteration. The LMS (Least Mean Square), and its variant the NLMS (Normalized LMS) are two of the adaptive algorithms widely in use. This paper presents a comparative analysis of the LMS and the NLMS in case of interference cancellation from speech signals. For each algorithm, the effects of two parameters-filter length and step size have been analyzed. Finally, the performances of the two algorithms in different cases have been compared.
DOI:10.1109/CICN.2011.148