Weiheng Chai scite author profile

Neural networks are known to be vulnerable to carefully crafted adversarial examples, and these malicious samples often transfer, i.e., they remain adversarial even against other models. Although great efforts have been delved into the transferability across models, surprisingly, less attention has been paid to the cross-task transferability, which represents the real-world cybercriminal's situation, where an ensemble of different defense/detection mechanisms need to be evaded all at once. In this paper, we investigate the transferability of adversarial examples across a wide range of real-world computer vision tasks, including image classification, object detection, semantic segmentation, explicit content detection, and text detection. Our proposed attack minimizes the "dispersion" of the internal feature map, which overcomes existing attacks' limitation of requiring task-specific loss functions and/or probing a target model. We conduct evaluation on open source detection and segmentation models as well as four different computer vision tasks provided by Google Cloud Vision (GCV) APIs, to show how our approach outperforms existing attacks by degrading performance of multiple CV tasks by a large margin with only modest perturbations (l ∞ ≤ 16).

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Range-Aware Attention Network for LiDAR-based 3D Object Detection with Auxiliary Point Density Level Estimation

Lu¹,

Hao²,

Li³

et al. 2021

Preprint

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Capsule network-based semantic segmentation model for thermal anomaly identification on building envelopes

Pan

Wang

Chai

et al. 2022

Advanced Engineering Informatics

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Weiheng Chai

Enhancing Cross-Task Black-Box Transferability of Adversarial Examples With Dispersion Reduction

A Survey on Driver Behavior Analysis From In-Vehicle Cameras

Enhancing Cross-task Black-Box Transferability of Adversarial Examples with Dispersion Reduction

Range-Aware Attention Network for LiDAR-based 3D Object Detection with Auxiliary Point Density Level Estimation

Capsule network-based semantic segmentation model for thermal anomaly identification on building envelopes

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