用于高维数据流的自适应伯恩斯坦变化检测器

IF 2.8 3区 计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Marco Heyden, Edouard Fouché, Vadim Arzamasov, Tanja Fenn, Florian Kalinke, Klemens Böhm
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引用次数: 0

摘要

在分析数据流时,变化检测至关重要。快速而准确地检测变化可使监控和预测系统做出反应,例如发出警报或更新学习算法。然而,当观测数据是高维数据时,检测变化是一项挑战。在高维数据中,变化检测器不仅要能识别变化发生的时间,还要能识别变化发生在哪个子空间。理想情况下,还应该量化变化的严重程度。我们的方法 ABCD 就具有这些特性。ABCD 学习编码器-解码器模型,并在一个自适应大小的窗口内监控其准确性。ABCD 基于伯恩斯坦不等式得出变化分数,以检测准确度方面的偏差,这表明发生了变化。我们的实验证明,ABCD 的 F1 分数平均比最佳竞争对手高出 20%。它还能准确估计变化的子空间,以及与地面实况相关的严重程度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Adaptive Bernstein change detector for high-dimensional data streams

Adaptive Bernstein change detector for high-dimensional data streams

Change detection is of fundamental importance when analyzing data streams. Detecting changes both quickly and accurately enables monitoring and prediction systems to react, e.g., by issuing an alarm or by updating a learning algorithm. However, detecting changes is challenging when observations are high-dimensional. In high-dimensional data, change detectors should not only be able to identify when changes happen, but also in which subspace they occur. Ideally, one should also quantify how severe they are. Our approach, ABCD, has these properties. ABCD learns an encoder-decoder model and monitors its accuracy over a window of adaptive size. ABCD derives a change score based on Bernstein’s inequality to detect deviations in terms of accuracy, which indicate changes. Our experiments demonstrate that ABCD outperforms its best competitor by up to 20% in F1-score on average. It can also accurately estimate changes’ subspace, together with a severity measure that correlates with the ground truth.

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来源期刊
Data Mining and Knowledge Discovery
Data Mining and Knowledge Discovery 工程技术-计算机:人工智能
CiteScore
10.40
自引率
4.20%
发文量
68
审稿时长
10 months
期刊介绍: Advances in data gathering, storage, and distribution have created a need for computational tools and techniques to aid in data analysis. Data Mining and Knowledge Discovery in Databases (KDD) is a rapidly growing area of research and application that builds on techniques and theories from many fields, including statistics, databases, pattern recognition and learning, data visualization, uncertainty modelling, data warehousing and OLAP, optimization, and high performance computing.
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