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Nonparametric Detection of Anomalous Data Streams

Author(s): Zou, Shaofeng; Liang, Yingbin; Poor, H Vincent; Shi, Xinghua

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Abstract: A nonparametric anomalous hypothesis testing problem is investigated, in which there are totally n observed sequences out of which s anomalous sequences are to be detected. Each typical sequence consists of m independent and identically distributed (i.i.d.) samples drawn from a distribution p, whereas each anomalous sequence consists of mi.i.d. samples drawn from a distribution q that is distinct from p. The distributions p and q are assumed to be unknown in advance. Distribution-free tests are constructed by using the maximum mean discrepancy as the metric, which is based on mean embeddings of distributions into a reproducing kernel Hilbert space. The probability of error is bounded as a function of the sample size m, the number s of anomalous sequences, and the number n of sequences. It is shown that with s known, the constructed test is exponentially consistent if m is greater than a constant factor of log n, for any p and q, whereas with s unknown, m should have an order strictly greater than log n. Furthermore, it is shown that no test can be consistent for arbitrary p and q if m is less than a constant factor of log n. Thus, the order-level optimality of the proposed test is established. Numerical results are provided to demonstrate that the proposed tests outperform (or perform as well as) tests based on other competitive approaches under various cases.
Publication Date: 31-Jul-2017
Citation: Zou, Shaofeng, Liang, Yingbin, Poor, H Vincent, Shi, Xinghua. (2017). Nonparametric Detection of Anomalous Data Streams. IEEE Transactions on Signal Processing, 65 (21), 5785 - 5797. doi:10.1109/tsp.2017.2733472
DOI: doi:10.1109/tsp.2017.2733472
ISSN: 1053-587X
EISSN: 1941-0476
Pages: 5785 - 5797
Type of Material: Journal Article
Journal/Proceeding Title: IEEE Transactions on Signal Processing
Version: Author's manuscript



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