Title :
Application of Adaptive Filter Using Adaptive Line Enhancer Techniques
Author :
Soumya, R.G. ; Naveen, N. ; Lal, M.J.
Abstract :
The paper discusses a method for detection of weak signal having low signal to noise ratio (SNR). SNR can be improved using fixed filters or using a suitable adaptive filter. In practical application, the statistical characteristics of signal and noise are usually unknown. The design of fixed filter is based on priori knowledge of both the signal and noise. Adaptive filters, on the other hand, have the ability to adjust their own parameters automatically and their design requires no priori knowledge of signal or noise characteristics. The adaptive line enhancer is applied before the FFT analysis to improve the detection performance. Performance of ALE using LMS and the RLS algorithms and a set of block processing algorithms BLMS, BAP are also compared. We simulated the adaptive filter with MATLAB, and the results prove its performance is better than the use of a conventional digital filter.
Keywords :
adaptive filters; fast Fourier transforms; least mean squares methods; statistical analysis; ALE algorithm; FFT analysis; LMS algorithm; RLS algorithm; SNR; adaptive filter; adaptive line enhancer; adaptive line enhancer technique; block LMS; block affine projection algorithm; fast Fourier transforms analysis; fixed filter; least mean square algorithm; recursive least square algorithm; signal to noise ratio; Adaptive filters; Filtering algorithms; Finite impulse response filters; Least squares approximations; Signal processing algorithms; Signal to noise ratio; Adaptive Line Enhancer (ALE); Block Affine Projection (BAP); Block LMS (BLMS); Least Mean Square (LMS); Recursive Least Square (RLS);
Conference_Titel :
Advances in Computing and Communications (ICACC), 2013 Third International Conference on
Conference_Location :
Cochin
DOI :
10.1109/ICACC.2013.39
