Layer-wise Regularized Adversarial Training using Layers Sustainability Analysis (LSA) framework
Deep neural network models are used today in various applications of artificial intelligence, the strengthening of which, in the face of adversarial attacks is of particular importance. An appropriate solution to adversarial attacks is adversarial training, which reaches a trade-off between robustness and generalization. This paper introduces a novel framework (Layer Sustainability Analysis (LSA)) for the analysis of layer vulnerability in a given neural network in the scenario of adversarial attacks. LSA can be a helpful toolkit to assess deep neural networks and to extend adversarial training approaches towards improving the sustainability of model layers via layer monitoring and analysis. The LSA framework identifies a list of Most Vulnerable Layers (MVL list) of a given network. The relative error, as a comparison measure, is used to evaluate the representation sustainability of each layer against adversarial attack inputs. The proposed approach for obtaining robust neural networks to fend off adversarial attacks is based on a layer-wise regularization (LR) over LSA proposal(s) for adversarial training (AT); i.e. the AT-LR procedure. AT-LR could be used with any benchmark adversarial attack to reduce the vulnerability of network layers and to improve conventional adversarial training approaches. The proposed idea performs well theoretically and experimentally for state-of-the-art multilayer perceptron and convolutional neural network architectures. Compared with the AT-LR and its corresponding base adversarial training, the classification accuracy of more significant perturbations increased by 16.35 MNIST, and CIFAR-10 benchmark datasets in comparison with the AT-LR and its corresponding base adversarial training, respectively. The LSA framework is available and published at https://github.com/khalooei/LSA.
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