Pattern-Based Attention Recurrent Autoencoder for Anomaly Detection in Air Quality Sensor Networks

IF 6.7 2区 计算机科学 Q1 ENGINEERING, MULTIDISCIPLINARY IEEE Transactions on Network Science and Engineering Pub Date : 2024-09-06 DOI:10.1109/TNSE.2024.3454459
Xhensilda Allka;Pau Ferrer-Cid;Jose M. Barcelo-Ordinas;Jorge Garcia-Vidal
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Abstract

Sensor networks play an essential role in today's air quality monitoring platforms. Nevertheless, sensors often malfunction, leading to data anomalies. In this paper, an unsupervised pattern-based attention recurrent autoencoder for anomaly detection (PARAAD) is proposed to detect and locate anomalies in a network of air quality sensors. The novelty of the proposal lies in the use of temporal patterns, i.e., blocks of data, instead of point values. By looking at temporal patterns and through an attention mechanism, the architecture captures data dependencies in the feature space and latent space, enhancing the model's ability to focus on the most relevant parts. Its performance is evaluated with two categories of anomalies, bias fault and drift anomalies, and compared with baseline models such as a feed-forward autoencoder and a transformer architecture, as well as with models not based on temporal patterns. The results show that PARAAD achieves anomalous sensor detection and localization rates higher than 80%, outperforming existing baseline models in air quality sensor networks for both bias and drift faults.
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基于模式的注意力递归自动编码器用于空气质量传感器网络中的异常检测
传感器网络在当今的空气质量监测平台中发挥着至关重要的作用。然而,传感器经常会出现故障,导致数据异常。本文提出了一种基于无监督模式的异常检测注意递归自动编码器(PARAAD),用于检测和定位空气质量传感器网络中的异常。该建议的新颖之处在于使用了时间模式,即数据块,而不是点值。通过观察时间模式和关注机制,该架构捕捉到了特征空间和潜在空间中的数据依赖性,增强了模型关注最相关部分的能力。通过偏差故障和漂移异常这两类异常情况对其性能进行了评估,并与前馈自动编码器和变压器架构等基准模型以及非基于时间模式的模型进行了比较。结果表明,在空气质量传感器网络中,PARAAD 的异常传感器检测率和定位率均高于 80%,在偏差故障和漂移故障方面均优于现有的基线模型。
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来源期刊
IEEE Transactions on Network Science and Engineering
IEEE Transactions on Network Science and Engineering Engineering-Control and Systems Engineering
CiteScore
12.60
自引率
9.10%
发文量
393
期刊介绍: The proposed journal, called the IEEE Transactions on Network Science and Engineering (TNSE), is committed to timely publishing of peer-reviewed technical articles that deal with the theory and applications of network science and the interconnections among the elements in a system that form a network. In particular, the IEEE Transactions on Network Science and Engineering publishes articles on understanding, prediction, and control of structures and behaviors of networks at the fundamental level. The types of networks covered include physical or engineered networks, information networks, biological networks, semantic networks, economic networks, social networks, and ecological networks. Aimed at discovering common principles that govern network structures, network functionalities and behaviors of networks, the journal seeks articles on understanding, prediction, and control of structures and behaviors of networks. Another trans-disciplinary focus of the IEEE Transactions on Network Science and Engineering is the interactions between and co-evolution of different genres of networks.
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