Performance of subspace-based algorithms associated with the sample sign covariance matrix - Archive ouverte HAL
Article Dans Une Revue Digital Signal Processing Année : 2022

Performance of subspace-based algorithms associated with the sample sign covariance matrix

Résumé

Complex-valued data in statistical signal processing applications have many advantages over their realvalued counterparts. It allows us to use the complete statistical information of the signal thanks to its statistical property of non-circularity. This paper presents a general framework for developing asymptotic theoretical results on the distribution-free sample sign covariance matrix (SSCM) under circular complex-valued elliptically symmetric (C-CES) and non-circular CES (NC-CES) multidimensional distributed data. It extends some partial asymptotic results on SSCM derived for real elliptically symmetric (RES) distributed data. In particular closedform expressions of the first and second-order of the SSCM are derived for arbitrary spectra of eigenvalues for C-CES and NC-CES distributed data which facilitates the derivation of numerous statistical properties. Then, the asymptotic distributions of associated projectors are deduced, which are applied in the study of asymptotic performance analysis of SSCM-based subspace algorithms, followed by a comparison to the asymptotic results derived using Tyler's M estimate. However, a more in-depth analytical analysis of the efficiency of the SSCM relative to Tyler's M estimate is performed, yielding that the performances of the SSCM and Tyler's M estimate are close for a high-dimensional data and not too small dimension of the principal component space. We conclude therefore that, although the SSCM is inefficient relative to Tyler's M estimate, it is of great interest from the point of view of its lower computational complexity for high-dimensional data. Finally, numerical results illustrating the theoretical analysis are presented through the direction-of-arrival (DOA) estimation CES data models.
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Dates et versions

hal-03810481 , version 1 (11-10-2022)

Identifiants

Citer

Habti Abeida, Jean-Pierre Delmas. Performance of subspace-based algorithms associated with the sample sign covariance matrix. Digital Signal Processing, 2022, 131, pp.103767. ⟨10.1016/j.dsp.2022.103767⟩. ⟨hal-03810481⟩
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