SA2E-AD:用于多变量时间序列异常检测的堆叠注意力自动编码器

IF 4 3区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS
Mengyao Li, Zhiyong Li, Zhibang Yang, Xu Zhou, Yifan Li, Ziyan Wu, Lingzhao Kong, Ke Nai
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引用次数: 0

摘要

多变量时间序列的异常检测是现代工业领域的一项重要任务。虽然已经开发出了多种异常检测方法,但这些方法通常无法有效利用多个变量之间的计量-时间相关性和其他依赖关系。针对这一问题,我们提出了一种用于多变量时间序列异常检测的堆叠注意力自动编码器(SA2E-AD),其重点是充分利用多变量时间序列之间的计量和时间关系。我们设计了一个多注意块,在分层结构中交替包含时间注意和韵律注意成分,以更好地重建正常时间序列,这有助于从正常时间序列中区分异常。同时,还设计了一种两阶段训练策略,以进一步将异常数据与正常数据区分开来。在三个公开数据集上进行的实验表明,SA2E-AD 的检测性能优于先进的基线方法,并证明了我们方法中各个环节的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
SA2E-AD: A Stacked Attention Autoencoder for Anomaly Detection in Multivariate Time Series

Anomaly detection for multivariate time series is an essential task in the modern industrial field. Although several methods have been developed for anomaly detection, they usually fail to effectively exploit the metrical-temporal correlation and the other dependencies among multiple variables. To address this problem, we propose a stacked attention autoencoder for anomaly detection in multivariate time series (SA2E-AD); it focuses on fully utilizing the metrical and temporal relationships among multivariate time series. We design a multiattention block, alternately containing the temporal attention and metrical attention components in a hierarchical structure to better reconstruct normal time series, which is helpful in distinguishing the anomalies from the normal time series. Meanwhile, a two-stage training strategy is designed to further separate the anomalies from the normal data. Experiments on three publicly available datasets show that SA2E-AD outperforms the advanced baseline methods in detection performance and demonstrate the effectiveness of each part of the process in our method.

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来源期刊
ACM Transactions on Knowledge Discovery from Data
ACM Transactions on Knowledge Discovery from Data COMPUTER SCIENCE, INFORMATION SYSTEMS-COMPUTER SCIENCE, SOFTWARE ENGINEERING
CiteScore
6.70
自引率
5.60%
发文量
172
审稿时长
3 months
期刊介绍: TKDD welcomes papers on a full range of research in the knowledge discovery and analysis of diverse forms of data. Such subjects include, but are not limited to: scalable and effective algorithms for data mining and big data analysis, mining brain networks, mining data streams, mining multi-media data, mining high-dimensional data, mining text, Web, and semi-structured data, mining spatial and temporal data, data mining for community generation, social network analysis, and graph structured data, security and privacy issues in data mining, visual, interactive and online data mining, pre-processing and post-processing for data mining, robust and scalable statistical methods, data mining languages, foundations of data mining, KDD framework and process, and novel applications and infrastructures exploiting data mining technology including massively parallel processing and cloud computing platforms. TKDD encourages papers that explore the above subjects in the context of large distributed networks of computers, parallel or multiprocessing computers, or new data devices. TKDD also encourages papers that describe emerging data mining applications that cannot be satisfied by the current data mining technology.
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