Title :
An adaptive estimation of periodic signals using a Fourier linear combiner
Author :
Vaz, Christopher ; Kong, Xuan ; Thakor, Nitish
Author_Institution :
Dept. of Biomed. Eng., Johns Hopkins Univ., Baltimore, MD, USA
fDate :
1/1/1994 12:00:00 AM
Abstract :
Presents an adaptive algorithm for estimating from noisy observations, periodic signals of known period subject to transient disturbances. The estimator is based on the LMS algorithm and works by tracking the Fourier coefficients of the data. The estimator is analyzed for convergence, noise misadjustment and lag misadjustment for signals with both time invariant and time variant parameters. The analysis is greatly facilitated by a change of variable that results in a time invariant difference equation. At sufficiently small values of the LMS step size, the system is shown to exhibit decoupling with each Fourier component converging independently and uniformly. Detection of rapid transients in data with low signal to noise ratio can be improved by using larger step sizes for more prominent components of the estimated signal. An application of the Fourier estimator to estimation of brain evoked responses is included
Keywords :
Fourier analysis; adaptive filters; convergence; filtering and prediction theory; least squares approximations; medical signal processing; Fourier coefficients; Fourier linear combiner; LMS algorithm; adaptive estimation; brain evoked responses; convergence; lag misadjustment; noise misadjustment; noisy observations; periodic signals; signal to noise ratio; time invariant difference equation; time invariant parameters; time variant parameters; transient disturbances; Adaptive algorithm; Adaptive estimation; Background noise; Convergence; Difference equations; Independent component analysis; Least squares approximation; Patient monitoring; Signal analysis; Signal to noise ratio;
Journal_Title :
Signal Processing, IEEE Transactions on
