基于非参数估计的不确定自回归动态模型变化检测

Q Mathematics
Nadine Hilgert , Ghislain Verdier , Jean-Pierre Vila
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引用次数: 4

摘要

提出了一种新的不确定动态系统在线变化检测的统计方法。在变化检测问题中,观测序列的分布可能在某个未知时刻发生变化。我们的目标是尽可能快地检测这种变化,例如参数变化,同时将错误检测的风险降至最低。在本文中,观测值来自一个不确定系统,该系统由一个包含未知功能成分的自回归模型建模。流行的Page的CUSUM规则不再适用,因为它需要模型的全部知识。提出了一种基于学习样本中未知成分的非参数估计的类cusum检测方案。此外,估计过程可以在线更新,以确保更好的检测,特别是在监测过程的开始。在描述水处理过程的模型上进行了模拟试验,并显示了该新程序相对于经典CUSUM规则的兴趣。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Change detection for uncertain autoregressive dynamic models through nonparametric estimation

A new statistical approach for on-line change detection in uncertain dynamic system is proposed. In change detection problem, the distribution of a sequence of observations can change at some unknown instant. The goal is to detect this change, for example a parameter change, as quickly as possible with a minimal risk of false detection. In this paper, the observations come from an uncertain system modeled by an autoregressive model containing an unknown functional component. The popular Page’s CUSUM rule is not applicable anymore since it requires the full knowledge of the model. A new detection CUSUM-like scheme is proposed, which is based on the nonparametric estimation of the unknown component from a learning sample. Moreover, the estimation procedure can be updated on-line which ensures a better detection, especially at the beginning of the monitoring procedure. Simulation trials were performed on a model describing a water treatment process and show the interest of this new procedure with respect to the classic CUSUM rule.

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来源期刊
Statistical Methodology
Statistical Methodology STATISTICS & PROBABILITY-
CiteScore
0.59
自引率
0.00%
发文量
0
期刊介绍: Statistical Methodology aims to publish articles of high quality reflecting the varied facets of contemporary statistical theory as well as of significant applications. In addition to helping to stimulate research, the journal intends to bring about interactions among statisticians and scientists in other disciplines broadly interested in statistical methodology. The journal focuses on traditional areas such as statistical inference, multivariate analysis, design of experiments, sampling theory, regression analysis, re-sampling methods, time series, nonparametric statistics, etc., and also gives special emphasis to established as well as emerging applied areas.
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