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- Title
Sequential change‐point detection: Computation versus statistical performance.
- Authors
Wang, Haoyun; Xie, Yao
- Abstract
Change‐point detection studies the problem of detecting the changes in the underlying distribution of the data stream as soon as possible after the change happens. Modern large‐scale, high‐dimensional, and complex streaming data call for computationally (memory) efficient sequential change‐point detection algorithms that are also statistically powerful. This gives rise to a computation versus statistical power trade‐off, an aspect less emphasized in the past in classic literature. This tutorial takes this new perspective and reviews several sequential change‐point detection procedures, ranging from classic sequential change‐point detection algorithms to more recent non‐parametric procedures that consider computation, memory efficiency, and model robustness in the algorithm design. Our survey also contains classic performance analysis, which provides useful techniques for analyzing new procedures. This article is categorized under:Statistical Models > Time Series ModelsAlgorithms and Computational Methods > AlgorithmsData: Types and Structure > Time Series, Stochastic Processes, and Functional Data
- Subjects
CHANGE-point problems; STOCHASTIC processes; STATISTICAL power analysis; DATA distribution; TIME series analysis
- Publication
WIREs: Computational Statistics, 2024, Vol 16, Issue 1, p1
- ISSN
1939-5108
- Publication type
Article
- DOI
10.1002/wics.1628