Title :
A parameterized maximum likelihood method for multipaths channels estimation
Author :
Bertaux, N. ; Larzabal, P. ; Adnet, C. ; Chaumette, E.
Author_Institution :
LESiR-ENS Cachan, France
Abstract :
In paths localization, a resolution that goes beyond the classical Rayleigh beamwidth is of great interest. To improve the resolution, model based techniques have been introduced (high resolution methods), but they are very sensitive to noise correlation and they assume underlying data model. We develop a parameterized maximum likelihood (PML) technique, based on a knowledge of the transmitted signal. We develop the exact PML approach and present its implementation by a Gauss Newton procedure. Simulations on data sets are examined. The performances are compared to the Cramer Rao bound. Its superiority over the traditional matched filter (MF) and the conditional maximum likelihood (CML) is shown. The paper concludes with the improvements introduced by a knowledge of the transmitted signals
Keywords :
Newton method; array signal processing; backscatter; direction-of-arrival estimation; maximum likelihood estimation; multipath channels; signal resolution; Cramer Rao bound; DOA; Gauss Newton procedure; Rayleigh beamwidth; backscattered signal; conditional maximum likelihood; data model; data sets; high resolution methods; matched filter; model based techniques; multipath channels estimation; noise correlation; parameterized maximum likelihood method; paths localization; sensors array; simulations; transmitted signal; Array signal processing; Covariance matrix; Delay; Matched filters; Maximum likelihood estimation; Multipath channels; Sensor arrays; Signal processing; Signal resolution; Stochastic processes;
Conference_Titel :
Signal Processing Advances in Wireless Communications, 1999. SPAWC '99. 1999 2nd IEEE Workshop on
Conference_Location :
Annapolis, MD
Print_ISBN :
0-7803-5599-7
DOI :
10.1109/SPAWC.1999.783100
