基于无监督梯度的分布式系统实时日志分析方法

IF 0.5 4区计算机科学 Q4 COMPUTER SCIENCE, INFORMATION SYSTEMS

International Journal of Cooperative Information Systems Pub Date : 2023-09-22 DOI:10.1142/s0218843023500181

Minquan Wang, Siyang Lu, Sizhe Xiao, Dong Dong Wang, Xiang Wei, Ningning Han, Liqiang Wang

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引用次数: 0

摘要

研究了基于无监督学习的深度神经网络分布式系统日志实时异常检测问题。该问题面临着检测精度和分析效率两方面的挑战。为了解决这两个挑战，我们提出了GLAD，这是一种简单而有效的分布式系统异常挖掘方法。为了保证检测的准确性，我们在一个校准良好的深度神经网络中利用梯度特征，并分析日志文件中的异常模式。为了提高分析效率，我们进一步将一类支持向量机(one-class support vector machine, SVM)集成到异常分析中，显著降低了异常决策边界划分的成本。这种有效的集成成功地解决了实时日志异常检测的准确性和有效性。此外，由于异常分析是基于无监督学习的，它大大减少了额外的数据标记成本。我们通过一系列实验证明，GLAD在准确性和效率之间具有最佳的综合性能，这意味着在解决实际问题方面具有优势。结果还表明，GLAD能够有效地挖掘异常，并且在召回率和F1分数上始终优于最先进的方法。

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An Unsupervised Gradient-Based Approach for Real-Time Log Analysis From Distributed Systems

We consider the problem of real-time log anomaly detection for distributed system with deep neural networks by unsupervised learning. There are two challenges in this problem, including detection accuracy and analysis efficacy. To tackle these two challenges, we propose GLAD, a simple yet effective approach mining for anomalies in distributed systems. To ensure detection accuracy, we exploit the gradient features in a well-calibrated deep neural network and analyze anomalous pattern within log files. To improve the analysis efficacy, we further integrate one-class support vector machine (SVM) into anomalous analysis, which significantly reduces the cost of anomaly decision boundary delineation. This effective integration successfully solves both accuracy and efficacy in real-time log anomaly detection. Also, since anomalous analysis is based upon unsupervised learning, it significantly reduces the extra data labeling cost. We conduct a series of experiments to justify that GLAD has the best comprehensive performance balanced between accuracy and efficiency, which implies the advantage in tackling practical problems. The results also reveal that GLAD enables effective anomaly mining and consistently outperforms state-of-the-art methods on both recall and F1 scores.

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来源期刊

International Journal of Cooperative Information Systems 工程技术-计算机：信息系统

CiteScore

2.30

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： The paradigm for the next generation of information systems (ISs) will involve large numbers of ISs distributed over large, complex computer/communication networks. Such ISs will manage or have access to large amounts of information and computing services and will interoperate as required. These support individual or collaborative human work. Communication among component systems will be done using protocols that range from conventional ones to those based on distributed AI. We call such next generation ISs Cooperative Information Systems (CIS). The International Journal of Cooperative Information Systems (IJCIS) addresses the intricacies of cooperative work in the framework of distributed interoperable information systems. It provides a forum for the presentation and dissemination of research covering all aspects of CIS design, requirements, functionality, implementation, deployment, and evolution.