Abstract
Point cloud object detection is crucial for a variety of applications, including autonomous driving and robotics. Voxel-based representation for 3D point clouds has drawn significant attention due to their efficiency and effectiveness. Recent studies have revealed the vulnerability of deep learning models to adversarial attacks, while considerably less attention is paid to the robustness of voxel-based point cloud object detectors. Existing adversarial attacks on the point cloud data involve generating fake obstacles, removing objects or producing fake predictions. Despite the demonstrated success, these approaches have three limitations. First, manipulating point data, which was originally designed for point-based representation, is inapplicable to voxel-based representation. Second, existing works that modified points in the hold scene yield redundant perturbations. Third, the evaluation primarily performed on small-scale datasets, such as KITTI, does not scale well. To address these limitations, we propose a gradient-based sparse voxel attack (GSVA) algorithm for voxel-based 3D point cloud object detectors. Two novel frameworks, i.e., re-voxelization-based voxel attack framework and light voxel attack framework, successfully modify voxel-based representation instead of raw points. In addition to KITTI, extensive experiments on large-scale datasets including nuScenes and Waymo Open Dataset demonstrate the favorable attack performance (with mAP decrease by 86.2%∼99.5%) and the slight perturbation costs (with lowest modification rate of 3.5%) of our voxel attack method over the state-of-the-art approaches.
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