Based on linear prediction and weighted least squares, an iterative procedure for frequency estimation of a complex sinusoid in white noise is devised. The proposed approach, which utilizes the first-order as well as higher-order linear prediction terms simultaneously but does not require phase unwrapping, can be considered as a generalized version of the weighted linear predictor frequency estimator. Computer simulations are included to contrast the performance of the proposed algorithms with Cramér-Rao lower bound in one-dimensional and two-dimensional frequency estimation. 1
Abstract—We investigate the performance of main frequency estimation methods for a single-component ...
Frequency estimation of a single complex exponential signal embedded in additive white Gaussian nois...
The paper addresses the problem of fast and accurate esti-mation of sinusoidal frequencies from nois...
Abstract—Based on linear prediction and weighted least squares, three simple iterative algorithms fo...
An improved method for estimating the frequency of a single complex sinusoid in complex additive whi...
The application of linear prediction to frequency estimation for sinusoidal signals in noise is inve...
A frequency estimator for a single complex sinusoid in complex white Gaussian noise is proposed. The...
A new frequency estimator for a single complex sinusoid in complex white Gaussian noise is proposed....
prediction based method is proposed for real harmonic sinusoidal frequency estimation. The estimator...
Abstract-New LS and SVD based methods for the es-timation of frequencies of complex sinueoids in whi...
A new solution to the problem of frequency estimation of a single sinusoid embedded in the white Gau...
A frequency estimator for sinusoids in white noise is described. Convergence results are obtained fo...
Two new methods are presented for the estimation of the frequencies of closely spaced complex valued...
SUMMARY A new adaptive filter algorithm based on the linear prediction property of sinusoidal signal...
The frequency estimation of a single tone corrupted by additive white Gaussian noise has received si...
Abstract—We investigate the performance of main frequency estimation methods for a single-component ...
Frequency estimation of a single complex exponential signal embedded in additive white Gaussian nois...
The paper addresses the problem of fast and accurate esti-mation of sinusoidal frequencies from nois...
Abstract—Based on linear prediction and weighted least squares, three simple iterative algorithms fo...
An improved method for estimating the frequency of a single complex sinusoid in complex additive whi...
The application of linear prediction to frequency estimation for sinusoidal signals in noise is inve...
A frequency estimator for a single complex sinusoid in complex white Gaussian noise is proposed. The...
A new frequency estimator for a single complex sinusoid in complex white Gaussian noise is proposed....
prediction based method is proposed for real harmonic sinusoidal frequency estimation. The estimator...
Abstract-New LS and SVD based methods for the es-timation of frequencies of complex sinueoids in whi...
A new solution to the problem of frequency estimation of a single sinusoid embedded in the white Gau...
A frequency estimator for sinusoids in white noise is described. Convergence results are obtained fo...
Two new methods are presented for the estimation of the frequencies of closely spaced complex valued...
SUMMARY A new adaptive filter algorithm based on the linear prediction property of sinusoidal signal...
The frequency estimation of a single tone corrupted by additive white Gaussian noise has received si...
Abstract—We investigate the performance of main frequency estimation methods for a single-component ...
Frequency estimation of a single complex exponential signal embedded in additive white Gaussian nois...
The paper addresses the problem of fast and accurate esti-mation of sinusoidal frequencies from nois...