Title :
Asymptotic analysis of beamspace-MUSIC in the context of large arrays
Author :
Vallet, Pascal ; Mestre, Xavier ; Loubaton, P. ; Couillet, Romain
Author_Institution :
Lab. IMS, Univ. Bordeaux, Talence, France
Abstract :
It is well-known that the MUSIC method for DoA estimation degrades when the number of samples N and the array dimensionM are large and of the same order of magnitude. In this context, several improvements have been proposed, among which the G-MUSIC method, which was shown to be consistent in the asymptotic regime where M;N converge to infinity at the same rate, and under an additional separation condition between noise and signal subspaces of the SCM. Nevertheless, this subspace separation condition is only fulfilled for sufficiently high SNR. Dimension reduction techniques are a classical way to partially circumvent this condition. In this paper, we provide an asymptotic analysis in terms of consistency and MSE in the aforementioned regime, of the Beamspace MUSIC, which is one popular technique to reduce the dimension of the observations.
Keywords :
array signal processing; direction-of-arrival estimation; mean square error methods; signal classification; source separation; DoA estimation; G-MUSIC method; MSE; SNR; asymptotic analysis; beamspace-MUSIC; dimension reduction techniques; large arrays context; signal subspaces; subspace separation condition; Arrays; Artificial intelligence; Discrete Fourier transforms; Integrated circuits; Nickel; Sensors; Vectors;
Conference_Titel :
Sensor Array and Multichannel Signal Processing Workshop (SAM), 2014 IEEE 8th
Conference_Location :
A Coruna
DOI :
10.1109/SAM.2014.6882444
