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A linear time method for the detection of point and collective anomalies

Research output: Working paper

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A linear time method for the detection of point and collective anomalies. / Fisch, Alex; Eckley, Idris Arthur; Fearnhead, Paul Nicholas.
Arxiv, 2018. p. 1-40.

Research output: Working paper

Harvard

Fisch, A, Eckley, IA & Fearnhead, PN 2018 'A linear time method for the detection of point and collective anomalies' Arxiv, pp. 1-40. <https://arxiv.org/abs/1806.01947>

APA

Fisch, A., Eckley, I. A., & Fearnhead, P. N. (2018). A linear time method for the detection of point and collective anomalies. (pp. 1-40). Arxiv. https://arxiv.org/abs/1806.01947

Vancouver

Fisch A, Eckley IA, Fearnhead PN. A linear time method for the detection of point and collective anomalies. Arxiv. 2018 Jun 5, p. 1-40.

Author

Fisch, Alex ; Eckley, Idris Arthur ; Fearnhead, Paul Nicholas. / A linear time method for the detection of point and collective anomalies. Arxiv, 2018. pp. 1-40

Bibtex

@techreport{5c2909c64f48493fb4c9851249da092f,
title = "A linear time method for the detection of point and collective anomalies",
abstract = "The challenge of efficiently identifying anomalies in data sequences is an important statistical problem that now arises in many applications. Whilst there has been substantial work aimed at making statistical analyses robust to outliers, or point anomalies, there has been much less work on detecting anomalous segments, or collective anomalies. By bringing together ideas from changepoint detection and robust statistics, we introduce Collective And Point Anomalies (CAPA), a computationally efficient approach that is suitable when collective anomalies are characterised by either a change in mean, variance, or both, and distinguishes them from point anomalies. Theoretical results establish the consistency of CAPA at detecting collective anomalies and empirical results show that CAPA has close to linear computational cost as well as being more accurate at detecting and locating collective anomalies than other approaches. We demonstrate the utility of CAPA through its ability to detect exoplanets from light curve data from the Kepler telescope. ",
author = "Alex Fisch and Eckley, {Idris Arthur} and Fearnhead, {Paul Nicholas}",
year = "2018",
month = jun,
day = "5",
language = "English",
pages = "1--40",
publisher = "Arxiv",
type = "WorkingPaper",
institution = "Arxiv",

}

RIS

TY - UNPB

T1 - A linear time method for the detection of point and collective anomalies

AU - Fisch, Alex

AU - Eckley, Idris Arthur

AU - Fearnhead, Paul Nicholas

PY - 2018/6/5

Y1 - 2018/6/5

N2 - The challenge of efficiently identifying anomalies in data sequences is an important statistical problem that now arises in many applications. Whilst there has been substantial work aimed at making statistical analyses robust to outliers, or point anomalies, there has been much less work on detecting anomalous segments, or collective anomalies. By bringing together ideas from changepoint detection and robust statistics, we introduce Collective And Point Anomalies (CAPA), a computationally efficient approach that is suitable when collective anomalies are characterised by either a change in mean, variance, or both, and distinguishes them from point anomalies. Theoretical results establish the consistency of CAPA at detecting collective anomalies and empirical results show that CAPA has close to linear computational cost as well as being more accurate at detecting and locating collective anomalies than other approaches. We demonstrate the utility of CAPA through its ability to detect exoplanets from light curve data from the Kepler telescope.

AB - The challenge of efficiently identifying anomalies in data sequences is an important statistical problem that now arises in many applications. Whilst there has been substantial work aimed at making statistical analyses robust to outliers, or point anomalies, there has been much less work on detecting anomalous segments, or collective anomalies. By bringing together ideas from changepoint detection and robust statistics, we introduce Collective And Point Anomalies (CAPA), a computationally efficient approach that is suitable when collective anomalies are characterised by either a change in mean, variance, or both, and distinguishes them from point anomalies. Theoretical results establish the consistency of CAPA at detecting collective anomalies and empirical results show that CAPA has close to linear computational cost as well as being more accurate at detecting and locating collective anomalies than other approaches. We demonstrate the utility of CAPA through its ability to detect exoplanets from light curve data from the Kepler telescope.

M3 - Working paper

SP - 1

EP - 40

BT - A linear time method for the detection of point and collective anomalies

PB - Arxiv

ER -