期刊
IEEE TRANSACTIONS ON SIGNAL PROCESSING
卷 56, 期 6, 页码 2206-2217出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TSP.2007.914311
关键词
terms-Asymptotic distribution; bias; consistency; covariance matrix estimates; non-Gaussian noise; spherically invariant random vectors (SIRV); statistical performance analysis
This paper deals with covariance matrix estimates in impulsive noise environments. Physical models based on compound noise modeling [spherically invariant random vectors (SIRV), compound Gaussian processes] allow to correctly describe reality (e.g., range power variations or clutter transitions areas in radar problems). However, these models depend on several unknown parameters (covariance matrix, statistical distribution of the texture, disturbance parameters) that have to be estimated. Based on these noise models, this paper presents a complete analysis of the main covariance matrix estimates used in the literature. Four estimates are studied: the well-known sample covariance matrix (M) over cap (SCM) and a normalized version (M) over cap (N), the fixed-point (FP) estimate (M) over cap (FP), and a theoretical benchmark (M) over cap (TFP). Among these estimates, the only one of practical interest in impulsive noise is the FP. The three others, which could be used in a Gaussian context, are, in this paper, only of academic interest, i.e., for comparison with the FP. A statistical study of these estimates is performed through bias analysis, consistency, and asymptotic distribution. This study allows to compare the performance of the estimates and to establish simple relationships between them. Finally, theoretical results are emphasized by several simulations corresponding to real situations.
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