Defending against Universal Adversarial Patches by Clipping Feature Norms

Cheng Yu, Jiansheng Chen, Youze Xue, Yuyang Liu, Weitao Wan, Jiayu Bao, Huimin Ma
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引用次数: 13

Abstract

Physical-world adversarial attacks based on universal adversarial patches have been proved to be able to mislead deep convolutional neural networks (CNNs), exposing the vulnerability of real-world visual classification systems based on CNNs. In this paper, we empirically reveal and mathematically explain that the universal adversarial patches usually lead to deep feature vectors with very large norms in popular CNNs. Inspired by this, we propose a simple yet effective defending approach using a new feature norm clipping (FNC) layer which is a differentiable module that can be flexibly inserted in different CNNs to adaptively suppress the generation of large norm deep feature vectors. FNC introduces no trainable parameter and only very low computational overhead. However, experiments on multiple datasets validate that it can effectively improve the robustness of different CNNs towards white-box universal patch attacks while maintaining a satisfactory recognition accuracy for clean samples.
通过裁剪特征规范防御通用对抗性补丁
基于通用对抗性补丁的物理世界对抗性攻击已被证明能够误导深度卷积神经网络(cnn),暴露了基于cnn的现实世界视觉分类系统的脆弱性。在本文中,我们通过经验揭示和数学解释了在流行的cnn中,通用对抗补丁通常会导致具有非常大范数的深度特征向量。受此启发,我们提出了一种简单而有效的防御方法,使用新的特征范数裁剪(FNC)层,该层是一个可微模块,可以灵活地插入到不同的cnn中,以自适应抑制大范数深度特征向量的生成。FNC没有引入可训练的参数,只有非常低的计算开销。然而,在多数据集上的实验证明,该方法可以有效提高不同cnn对白盒通用补丁攻击的鲁棒性,同时对干净样本保持满意的识别精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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