Revisiting Adversarial Patches for Designing Camera-Agnostic Attacks against Person Detection
Keywords: Physical Adversarial Attack, Person Detection, Adversarial Patch, Camera ISP
TL;DR: We propose a camera-agnostic physical adversarial attack, CAP (Camera-Agnostic Patch), addressing the oversight of camera influence in existing physical adversarial attack methods.
Abstract: Physical adversarial attacks can deceive deep neural networks (DNNs), leading to erroneous predictions in real-world scenarios. To uncover potential security risks, attacking the safety-critical task of person detection has garnered significant attention. However, we observe that existing attack methods overlook the pivotal role of the camera, involving capturing real-world scenes and converting them into digital images, in the physical adversarial attack workflow. This oversight leads to instability and challenges in reproducing these attacks. In this work, we revisit patch-based attacks against person detectors and introduce a camera-agnostic physical adversarial attack to mitigate this limitation. Specifically, we construct a differentiable camera Image Signal Processing (ISP) proxy network to compensate for the physical-to-digital transition gap. Furthermore, the camera ISP proxy network serves as a defense module, forming an adversarial optimization framework with the attack module. The attack module optimizes adversarial patches to maximize effectiveness, while the defense module optimizes the conditional parameters of the camera ISP proxy network to minimize attack effectiveness. These modules engage in an adversarial game, enhancing cross-camera stability. Experimental results demonstrate that our proposed Camera-Agnostic Patch (CAP) attack effectively conceals persons from detectors across various imaging hardware, including two distinct cameras and four smartphones.
Supplementary Material: zip
Primary Area: Safety in machine learning
Flagged For Ethics Review: true
Submission Number: 667
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