Paper Info
Title
On the Resolution Probability of MUSIC in Presence of Modeling Errors
Abstract
The problem of resolving closely spaced signal sources using an antenna array remains a difficult one, although several estimation methods are available in the literature. When the array correlation matrix is known, the resolution capability of subspace algorithms is infinitely high. However, in the presence of modeling errors the resolution deteriorates, even for a known correlation matrix. In this paper, we analyze the MUSIC method, by way of three different definitions of the resolution. Assuming Gaussian circular random modeling errors, we determine the corresponding expressions of the probability of source resolution versus the model mismatch. A first series of simulations validates the mathematical expression of the three resolution probabilities. A second series of simulations is used to select among them the tightest one to the empirical one. The results are useful, e.g., for determining the necessary antenna calibration accuracy to achieve a target performance.
Year
DOI
Venue
2008
10.1109/TSP.2007.911482
IEEE Transactions on Signal Processing
Keywords
DocType
Volume
music method,resolution capability,necessary antenna calibration accuracy,array correlation matrix,resolution probability,antenna array,known correlation matrix,gaussian circular random modeling,corresponding expression,source resolution,modeling errors
Journal
56
Issue
ISSN
Citations 
5
1053-587X
18
PageRank 
References 
Authors
1.04
13
3
Name
Order
Citations
PageRank
A. Ferreol130525.51
Pascal Larzabal253564.76
M. Viberg3917188.13