Self-structured confabulation network for fast anomaly detection and reasoning

Qiuwen Chen, Qing Wu, Morgan Bishop, R. Linderman, Qinru Qiu
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引用次数: 9

Abstract

Inference models such as the confabulation network are particularly useful in anomaly detection applications because they allow introspection to the decision process. However, building such network model always requires expert knowledge. In this paper, we present a self-structuring technique that learns the structure of a confabulation network from unlabeled data. Without any assumption of the distribution of data, we leverage the mutual information between features to learn a succinct network configuration, and enable fast incremental learning to refine the knowledge bases from continuous data streams. Compared to several existing anomaly detection methods, the proposed approach provides higher detection performance and excellent reasoning capability. We also exploit the massive parallelism that is inherent to the inference model and accelerate the detection process using GPUs. Experimental results show significant speedups and the potential to be applied to real-time applications with high-volume data streams.
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用于快速异常检测和推理的自结构虚构网络
像虚构网络这样的推理模型在异常检测应用程序中特别有用,因为它们允许对决策过程进行内省。然而,建立这样的网络模型往往需要专业知识。在本文中,我们提出了一种从未标记数据中学习虚构网络结构的自结构化技术。在不假设数据分布的情况下,我们利用特征之间的相互信息来学习简洁的网络配置,并实现快速增量学习,从连续的数据流中提炼知识库。与现有的几种异常检测方法相比,该方法具有更高的检测性能和出色的推理能力。我们还利用了推理模型固有的大规模并行性,并使用gpu加速了检测过程。实验结果显示了显著的加速和应用于具有大容量数据流的实时应用的潜力。
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