Variate Associated Domain Adaptation for Unsupervised Multivariate Time Series Anomaly Detection

IF 4 3区 计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS
Yifan He, Yatao Bian, Xi Ding, Bingzhe Wu, Jihong Guan, Ji Zhang, Shuigeng Zhou
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Abstract

Multivariate Time Series Anomaly Detection (MTS-AD) is crucial for the effective management and maintenance of devices in complex systems such as server clusters, spacecrafts and financial systems etc. However, upgrade or cross-platform deployment of these devices will introduce the issue of cross-domain distribution shift, which leads to the prototypical problem of Domain Adaptation for MTS-AD. Compared with general domain adaptation problems, MTS-AD domain adaptation presents two peculiar challenges: 1) The dimensions of data from the source domain and the target domain are usually different, so alignment without losing any information is necessary. 2) The association between different variates plays a vital role in the MTS-AD task, which is overlooked by traditional domain adaptation approaches. Aiming at addressing the above issues, we propose a Variate Associated domaiN aDaptation method combined with a GrAph Deviation Network (abbreviated as VANDA) for MTS-AD, which includes two major contributions. First, we characterize the intra-domain variate associations of the source domain by a graph deviation network (GDN), which can share parameters across domains without dimension alignment. Second, we propose a sliding similarity to measure the inter-domain variate associations and perform joint training by minimizing the optimal transport distance between source and target data for transferring variate associations across domains. VANDA achieves domain adaptation by transferring both variate associations and GDN parameters from the source domain to the target domain. We construct two pairs of MTS-AD datasets from existing MTS-AD data and combine three domain adaptation strategies with six MTS-AD backbones as the benchmark methods for experimental evaluation and comparison. Extensive experiments demonstrate the effectiveness of our approach, which outperforms the benchmark methods, and significantly improves the AD performance of the target domain by effectively utilizing the source domain knowledge.

用于无监督多变量时间序列异常检测的变异相关领域适应技术
多变量时间序列异常检测(MTS-AD)对于服务器集群、航天器和金融系统等复杂系统中设备的有效管理和维护至关重要。然而,这些设备的升级或跨平台部署会带来跨域分布转移问题,这就导致了 MTS-AD 的原型域适应问题。与一般的域适配问题相比,MTS-AD 的域适配面临两个特殊的挑战:1) 源域和目标域的数据维度通常不同,因此需要在不丢失任何信息的情况下进行对齐。2)不同变体之间的关联在 MTS-AD 任务中起着至关重要的作用,而传统的域适应方法却忽略了这一点。为了解决上述问题,我们提出了一种用于 MTS-AD 的 Variate Associated domaiN aDaptation 方法,该方法与 GrAph Deviation Network(缩写为 VANDA)相结合,主要有两大贡献。首先,我们通过图偏差网络(GDN)描述了源域的域内变量关联,该网络可以在不进行维度对齐的情况下跨域共享参数。其次,我们提出了一种滑动相似性来测量域间变异关联,并通过最小化源数据和目标数据之间的最佳传输距离来进行联合训练,从而实现变异关联的跨域传输。VANDA 通过将变异关联和 GDN 参数从源域传输到目标域来实现域适应。我们从现有的 MTS-AD 数据中构建了两对 MTS-AD 数据集,并将三种域适应策略与六种 MTS-AD 主干网相结合,作为实验评估和比较的基准方法。广泛的实验证明了我们方法的有效性,它优于基准方法,并通过有效利用源域知识显著提高了目标域的 AD 性能。
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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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