A backward procedure for change-point detection with applications to copy number variation detection

Seung Jun Shin; Yichao Wu; Ning Hao

doi:10.1002/cjs.11535

A backward procedure for change-point detection with applications to copy number variation detection

Seung Jun Shin, Yichao Wu, Ning Hao

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Change-point detection regains much attention recently for analyzing array or sequencing data for copy number variation (CNV) detection. In such applications, the true signals are typically very short and buried in the long data sequence, which makes it challenging to identify the variations efficiently and accurately. In this article, we propose a new change-point detection method, a backward procedure, which is not only fast and simple enough to exploit high-dimensional data but also performs very well for detecting short signals. Although motivated by CNV detection, the backward procedure is generally applicable to assorted change-point problems that arise in a variety of scientific applications. It is illustrated by both simulated and real CNV data that the backward detection has clear advantages over other competing methods, especially when the true signal is short.

Original language	English (US)
Pages (from-to)	366-385
Number of pages	20
Journal	Canadian Journal of Statistics
Volume	48
Issue number	3
DOIs	https://doi.org/10.1002/cjs.11535
State	Published - Sep 1 2020

Keywords

Backward detection
Short signal
copy number variation
mean change-point model
multiple change points

ASJC Scopus subject areas

Statistics and Probability
Statistics, Probability and Uncertainty

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10.1002/cjs.11535

Cite this

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title = "A backward procedure for change-point detection with applications to copy number variation detection",

abstract = "Change-point detection regains much attention recently for analyzing array or sequencing data for copy number variation (CNV) detection. In such applications, the true signals are typically very short and buried in the long data sequence, which makes it challenging to identify the variations efficiently and accurately. In this article, we propose a new change-point detection method, a backward procedure, which is not only fast and simple enough to exploit high-dimensional data but also performs very well for detecting short signals. Although motivated by CNV detection, the backward procedure is generally applicable to assorted change-point problems that arise in a variety of scientific applications. It is illustrated by both simulated and real CNV data that the backward detection has clear advantages over other competing methods, especially when the true signal is short.",

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AU - Wu, Yichao

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N2 - Change-point detection regains much attention recently for analyzing array or sequencing data for copy number variation (CNV) detection. In such applications, the true signals are typically very short and buried in the long data sequence, which makes it challenging to identify the variations efficiently and accurately. In this article, we propose a new change-point detection method, a backward procedure, which is not only fast and simple enough to exploit high-dimensional data but also performs very well for detecting short signals. Although motivated by CNV detection, the backward procedure is generally applicable to assorted change-point problems that arise in a variety of scientific applications. It is illustrated by both simulated and real CNV data that the backward detection has clear advantages over other competing methods, especially when the true signal is short.

AB - Change-point detection regains much attention recently for analyzing array or sequencing data for copy number variation (CNV) detection. In such applications, the true signals are typically very short and buried in the long data sequence, which makes it challenging to identify the variations efficiently and accurately. In this article, we propose a new change-point detection method, a backward procedure, which is not only fast and simple enough to exploit high-dimensional data but also performs very well for detecting short signals. Although motivated by CNV detection, the backward procedure is generally applicable to assorted change-point problems that arise in a variety of scientific applications. It is illustrated by both simulated and real CNV data that the backward detection has clear advantages over other competing methods, especially when the true signal is short.

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A backward procedure for change-point detection with applications to copy number variation detection

Abstract

Keywords

ASJC Scopus subject areas

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