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Semi-Supervised Anomaly Detection Using Restricted Distribution Transformation

异常检测 转化(遗传学) 异常(物理) 模式识别(心理学) 人工智能 计算机科学 生物 物理 凝聚态物理 生物化学 基因
作者
Feng Xiao,Youqing Wang,S. Joe Qin,Jicong Fan
出处
期刊:IEEE transactions on neural networks and learning systems [Institute of Electrical and Electronics Engineers]
卷期号:: 1-12
标识
DOI:10.1109/tnnls.2025.3583320
摘要

Anomaly detection (AD) is typically regarded as an unsupervised learning task, where the training data either do not contain any anomalous samples or contain only a few unlabeled anomalous samples. In fact, in many real scenarios such as fault diagnosis and disease detection, a small number of anomalous samples labeled by domain experts are often available during the training phase, which makes semi-supervised AD (SAD) more appealing, though the related study is quite limited. Existing semi-supervised AD methods directly add optimization terms of anomalous samples to the optimization objective of unsupervised AD (UAD), where the effects of the limited labeled anomalous data on the optimization process become trivial and they cannot fully contribute to the detection task. To cover the shortage, in this work, we propose a novel semi-supervised AD method to fully use the limited labeled anomalous data and further to boost detection performance. The proposed method learns a nonlinear transformation to project normal data into a compact target distribution and simultaneously to project exposed anomalous samples into another target distribution, where the two target distributions do not overlap each other. The goal is difficult to achieve because of the scarcity of anomalous samples. To address this problem, we propose to generate a large number of intermediate samples interpolating between normal and anomalous data and project them into a third target distribution lying between the aforementioned two target distributions. Empirical results on multiple benchmarks with varying domains demonstrate the superiority of our method over existing supervised and semi-supervised AD methods.
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