Title :
Parameter estimation of exponentially damped sinusoids using higher order statistics
Author :
Papadopoulos, Christos K. ; Nikias, Chrysostomos L.
Author_Institution :
Northeastern Univ., Boston, MA, USA
fDate :
8/1/1990 12:00:00 AM
Abstract :
A new approach for the estimation of the parameters of exponentially damped sinusoids is introduced based on third- or fourth-order statistics of the observation signal. The method may be seen as an extension of the minimum norm principal eigenvectors method to higher order statistics domains. The strong points and limitations of the method are discussed as well as sufficient conditions for the existence of the solution. The utilization of the method in the case of finite length signals in the presence of additive Gaussian noise (white or colored) is addressed. Monte Carlo simulations demonstrate the effectiveness of the new method when the additive noise is colored Gaussian with unknown autocorrelation sequence for different signal-to-noise ratios and a single data record. The case of an ensemble of data records is studied when the exponentially damped sinusoids are assumed to have random phase
Keywords :
parameter estimation; random noise; signal processing; statistical analysis; Monte Carlo simulations; additive Gaussian noise; autocorrelation sequence; coloured Gaussian noise; data record; exponentially damped sinusoids; finite length signals; fourth-order statistics; higher order statistics; minimum norm principal eigenvectors method; observation signal; parameter estimation; random phase; signal-to-noise ratios; white Gaussian noise; Additive noise; Autocorrelation; Colored noise; Damping; Frequency; Gaussian noise; Higher order statistics; Maximum likelihood estimation; Parameter estimation; Signal to noise ratio;
Journal_Title :
Acoustics, Speech and Signal Processing, IEEE Transactions on
