Title :
Higher Order Tensor-Based Method for Delayed Exponential Fitting
Author :
Boyer, Rémy ; De Lathauwer, Lieven ; Abed-Meraim, Karim
Author_Institution :
Lab. des Signaux et Systemes (LSS-Supelec), CNRS, Paris
fDate :
6/1/2007 12:00:00 AM
Abstract :
We present subspace-based schemes for the estimation of the poles (angular frequencies and damping factors) of a sum of damped and delayed sinusoids. In our model, each component is supported over a different time frame, depending on the delay parameter. Classical subspace-based methods are not suited to handle signals with varying time supports. In this contribution, we propose solutions based on the approximation of a partially structured Hankel-type tensor on which the data are mapped. We show, by means of several examples, that the approach based on the best rank-(R1,R2,R3) approximation of the data tensor outperforms the current tensor and matrix-based techniques in terms of the accuracy of the angular frequency and damping factor parameter estimates, especially in the context of difficult scenarios as in the low signal-to-noise ratio regime and for closely spaced sinusoids
Keywords :
Hankel matrices; approximation theory; signal processing; tensors; angular frequency; damped sinusoids; damping factor; delayed exponential fitting; delayed sinusoids; higher order tensor-based method; matrix-based techniques; partially structured Hankel-type tensor; signal-to-noise ratio; subspace-based schemes; Algebra; Damping; Delay effects; Delay estimation; Frequency estimation; Parameter estimation; Power system modeling; Power system transients; Singular value decomposition; Tensile stress; Conditional Cramér–Rao bound (CCRB); damped and delayed sinusoids; higher order tensor; rank reduction; singular value decomposition (SVD); subspace-based parameter estimation;
Journal_Title :
Signal Processing, IEEE Transactions on
DOI :
10.1109/TSP.2007.893981
