捣鬼:针对相机和计算机视觉的声学对抗性机器学习

Xiaoyu Ji, Yushi Cheng, Yuepeng Zhang, Kai Wang, Chen Yan, Wenyuan Xu, Kevin Fu
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引用次数: 33

摘要

自动驾驶汽车越来越多地利用基于计算机视觉的物体检测系统来感知环境并做出关键的驾驶决策。为了提高图像质量,增加了带有惯性传感器的图像稳定器,以减轻相机抖动引起的图像模糊。然而,这种趋势打开了一个新的攻击面。本文确定了一个系统级漏洞,该漏洞是由新兴的易受声学操纵的图像稳定硬件和受对抗性示例影响的目标检测算法相结合造成的。通过发射精心设计的声音信号,对手可以控制惯性传感器的输出,从而触发不必要的运动补偿,导致图像模糊,即使相机是稳定的。然后,模糊的图像会导致物体的错误分类,影响安全关键的决策。我们模拟了这种声学操作的可行性,并设计了一个攻击框架,可以完成三种类型的攻击,即隐藏,创建和改变对象。评估结果证明了我们针对四个学术目标探测器(YOLO V3/V4/V5和Fast R-CNN)和一个商业探测器(Apollo)的攻击有效性。我们进一步介绍了AMpLe攻击的概念,这是一类新的系统级安全漏洞,由对抗性机器学习和基于物理的信息携带信号注入硬件相结合而产生。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Poltergeist: Acoustic Adversarial Machine Learning against Cameras and Computer Vision
Autonomous vehicles increasingly exploit computer-vision-based object detection systems to perceive environments and make critical driving decisions. To increase the quality of images, image stabilizers with inertial sensors are added to alleviate image blurring caused by camera jitters. However, such a trend opens a new attack surface. This paper identifies a system-level vulnerability resulting from the combination of the emerging image stabilizer hardware susceptible to acoustic manipulation and the object detection algorithms subject to adversarial examples. By emitting deliberately designed acoustic signals, an adversary can control the output of an inertial sensor, which triggers unnecessary motion compensation and results in a blurred image, even if the camera is stable. The blurred images can then induce object misclassification affecting safety-critical decision making. We model the feasibility of such acoustic manipulation and design an attack framework that can accomplish three types of attacks, i.e., hiding, creating, and altering objects. Evaluation results demonstrate the effectiveness of our attacks against four academic object detectors (YOLO V3/V4/V5 and Fast R-CNN), and one commercial detector (Apollo). We further introduce the concept of AMpLe attacks, a new class of system-level security vulnerabilities resulting from a combination of adversarial machine learning and physics-based injection of information-carrying signals into hardware.
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