Training Robust Deep Neural Networks via Adversarial Noise Propagation

September 19, 2019 ยท Declared Dead ยท ๐Ÿ› IEEE Transactions on Image Processing

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Authors Aishan Liu, Xianglong Liu, Chongzhi Zhang, Hang Yu, Qiang Liu, Dacheng Tao arXiv ID 1909.09034 Category cs.LG: Machine Learning Cross-listed cs.CV Citations 139 Venue IEEE Transactions on Image Processing Last Checked 4 months ago
Abstract
In practice, deep neural networks have been found to be vulnerable to various types of noise, such as adversarial examples and corruption. Various adversarial defense methods have accordingly been developed to improve adversarial robustness for deep models. However, simply training on data mixed with adversarial examples, most of these models still fail to defend against the generalized types of noise. Motivated by the fact that hidden layers play a highly important role in maintaining a robust model, this paper proposes a simple yet powerful training algorithm, named \emph{Adversarial Noise Propagation} (ANP), which injects noise into the hidden layers in a layer-wise manner. ANP can be implemented efficiently by exploiting the nature of the backward-forward training style. Through thorough investigations, we determine that different hidden layers make different contributions to model robustness and clean accuracy, while shallow layers are comparatively more critical than deep layers. Moreover, our framework can be easily combined with other adversarial training methods to further improve model robustness by exploiting the potential of hidden layers. Extensive experiments on MNIST, CIFAR-10, CIFAR-10-C, CIFAR-10-P, and ImageNet demonstrate that ANP enables the strong robustness for deep models against both adversarial and corrupted ones, and also significantly outperforms various adversarial defense methods.
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