adGAN for anomaly detection using GAN. Unlike existing GAN-based methods, adGAN is a discriminative model, which uses the fake data generated from GAN as an abnormal class, and then learns a boundary between normal data and simulated abnormal data. Thus it is able to output the anomaly scores directly similar as one-class SVM (OCSVM), without any reconstruction process. We explicitly design adGAN with two key elements, i.e., fake pool generation and concentration loss. The fake pool is created by incrementally collecting the fake data produced by intermediate-state GAN, which are likely surrounding the normal data distribution. The concentration loss is innovatively introduced to penalize large standard deviations of discriminator outputs for normal data, aiming to make the distribution of normal data more compact and more likely to be separated from the distribution of the potential abnormal data. The trained discriminator is finally used as an anomaly detector. We evaluated adGAN on three datasets, including ab-MNIST for synthetic anomaly detection, the ISIC’2016 for skin lesion detection, and the BraTS’2017 for brain lesion detection. The extensive experiments demonstrate that adGAN is consistently superior to its competitors on all three datasets.">

Counterfeit Anomaly Using Generative Adversarial Network for Anomaly Detection (original) (raw)

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