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Performance of Statistical Tests for Single-Source Detection Using Random Matrix Theory

Abstract : This paper introduces a unified framework for the detection of a single source with a sensor array in the context where the noise variance and the channel between the source and the sensors are unknown at the receiver. The Generalized Maximum Likelihood Test is studied and yields the analysis of the ratio between the maximum eigenvalue of the sampled covariance matrix and its normalized trace. Using recent results from random matrix theory, a practical way to evaluate the threshold and the p-value of the test is provided in the asymptotic regime where the number K of sensors and the number N of observations per sensor are large but have the same order of magnitude. The theoretical performance of the test is then analyzed in terms of Receiver Operating Characteristic (ROC) curve. It is, in particular, proved that both Type I and Type II error probabilities converge to zero exponentially as the dimensions increase at the same rate, and closed-form expressions are provided for the error exponents. These theoretical results rely on a precise description of the large deviations of the largest eigenvalue of spiked random matrix models, and establish that the presented test asymptotically outperforms the popular test based on the condition number of the sampled covariance matrix.
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Contributor : Samir Medina Perlaza Connect in order to contact the contributor
Submitted on : Sunday, December 4, 2011 - 1:14:57 AM
Last modification on : Tuesday, July 6, 2021 - 3:39:33 AM
Long-term archiving on: : Monday, March 5, 2012 - 2:20:13 AM


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Pascal Bianchi, Merouane Debbah, Mylene Maida, Jamal Najim. Performance of Statistical Tests for Single-Source Detection Using Random Matrix Theory. IEEE Transactions on Information Theory, Institute of Electrical and Electronics Engineers, 2011, 57 (4), pp.2400-2419. ⟨10.1109/TIT.2011.2111710⟩. ⟨hal-00647963⟩



Les métriques sont temporairement indisponibles