End-to-End Convolutional Activation Anomaly Analysis for Anomaly Detection
Aleksander Kozłowski, Daniel Ponikowski, Piotr Żukiewicz, Paweł Twardowski
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We propose an End-to-end Convolutional Activation Anomaly Analysis (E2E-CA^3), which is a significant extension of A^3 anomaly detection approach proposed by Sperl, Schulze and B\"ottinger, both in terms of architecture and scope of application. In contrast to the original idea, we utilize a convolutional autoencoder as a target network, which allows for natural application of the method both to image and tabular data. The alarm network is also designed as a CNN, where the activations of convolutional layers from CAE are stacked together into k+1-dimensional tensor. Moreover, we combine the classification loss of the alarm network with the reconstruction error of the target CAE, as a "best of both worlds" approach, which greatly increases the versatility of the network. The evaluation shows that despite generally straightforward and lightweight architecture, it has a very promising anomaly detection performance on common datasets such as MNIST, CIFAR-10 and KDDcup99.