Lipschitz regularized Deep Neural Networks generalize and are adversarially robust

28 Aug 2018 · Chris Finlay, Jeff Calder, Bilal Abbasi, Adam Oberman ·

In this work we study input gradient regularization of deep neural networks, and demonstrate that such regularization leads to generalization proofs and improved adversarial robustness. The proof of generalization does not overcome the curse of dimensionality, but it is independent of the number of layers in the networks. The adversarial robustness regularization combines adversarial training, which we show to be equivalent to Total Variation regularization, with Lipschitz regularization. We demonstrate empirically that the regularized models are more robust, and that gradient norms of images can be used for attack detection.

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