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Autore principale: Rekavandi, Aref Miri
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2401.12469
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author Rekavandi, Aref Miri
author_facet Rekavandi, Aref Miri
contents In this paper, we aim to take one step forward to the scenario where an adaptive subspace detection framework is required to detect subspace signals in non-stationary environments. Despite the fact that this scenario is more realistic, the existing studies in detection theory mostly rely on homogeneous, or partially homogeneous assumptions in the environments for their design process meaning that the covariance matrices of primary and secondary datasets are exactly the same or different up to a scale factor. In this study, we allow some partial information of the train covariance matrix to be shared with the primary dataset, but the covariance matrix in the primary set can be entirely different in the structure. This is particularly true in radar systems where the secondary set is collected in distinct spatial and time zones. We design a Generalized Likelihood Ratio Test (GLRT) based detector where the noise is multivariate Gaussian and the subspace interference is assumed to be known. The simulation results reveal the superiority of the proposed approach in comparison with conventional detectors for such a realistic and general scenario.
format Preprint
id arxiv_https___arxiv_org_abs_2401_12469
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Towards Adaptive Subspace Detection in Heterogeneous Environment
Rekavandi, Aref Miri
Signal Processing
In this paper, we aim to take one step forward to the scenario where an adaptive subspace detection framework is required to detect subspace signals in non-stationary environments. Despite the fact that this scenario is more realistic, the existing studies in detection theory mostly rely on homogeneous, or partially homogeneous assumptions in the environments for their design process meaning that the covariance matrices of primary and secondary datasets are exactly the same or different up to a scale factor. In this study, we allow some partial information of the train covariance matrix to be shared with the primary dataset, but the covariance matrix in the primary set can be entirely different in the structure. This is particularly true in radar systems where the secondary set is collected in distinct spatial and time zones. We design a Generalized Likelihood Ratio Test (GLRT) based detector where the noise is multivariate Gaussian and the subspace interference is assumed to be known. The simulation results reveal the superiority of the proposed approach in comparison with conventional detectors for such a realistic and general scenario.
title Towards Adaptive Subspace Detection in Heterogeneous Environment
topic Signal Processing
url https://arxiv.org/abs/2401.12469