Paper ID: 2305.09305

Releasing Inequality Phenomena in $L_{\infty}$-Adversarial Training via Input Gradient Distillation

Junxi Chen, Junhao Dong, Xiaohua Xie

Since adversarial examples appeared and showed the catastrophic degradation they brought to DNN, many adversarial defense methods have been devised, among which adversarial training is considered the most effective. However, a recent work showed the inequality phenomena in $l_{\infty}$-adversarial training and revealed that the $l_{\infty}$-adversarially trained model is vulnerable when a few important pixels are perturbed by i.i.d. noise or occluded. In this paper, we propose a simple yet effective method called Input Gradient Distillation (IGD) to release the inequality phenomena in $l_{\infty}$-adversarial training. Experiments show that while preserving the model's adversarial robustness, compared to PGDAT, IGD decreases the $l_{\infty}$-adversarially trained model's error rate to inductive noise and inductive occlusion by up to 60\% and 16.53\%, and to noisy images in Imagenet-C by up to 21.11\%. Moreover, we formally explain why the equality of the model's saliency map can improve such robustness.

Submitted: May 16, 2023