Stealthy Adversarial Examples for Semantic Segmentation in Remote Sensing

Deep learning methods have been proven effective in remote sensing image analysis and interpretation, where semantic segmentation plays a vital role. These deep segmentation methods are susceptible to adversarial attacks, while most of the existing attack methods tend to manipulate the image globally, leading to noticeable perturbations and chaotic segmentation. In this work, we propose a novel Stealthy Attack for Semantic Segmentation (SASS), which can largely increase the effectiveness and stealthiness from the existing attack methods on remote sensing images. SASS manipulates specific victim classes or objects of interest while preserving the original segmentation results for other classes or objects. In practice, as different inference mechanisms, overlapped inference, can be applied in segmentation, the efficacy of SASS may be degraded. To this end, we further introduce the Masked Stealthy Attack for Semantic Segmentation (MSASS), which generates augmented adversarial perturbations that only affect victim areas. We evaluate the effectiveness of SASS and MSASS using four state-of-the-art semantic segmentation models on the Vaihingen and Zurich Summer datasets. Extensive experiments demonstrate that our SASS and MSASS methods achieve superior attack performances on victim areas while maintaining high accuracies of other areas (drop less than 2%). The detection success rates of adversarial examples for segmentation, as characterized by Xiao et al . [1], significantly drop from 97.78% for the untargeted PGD attack to 28.71% for our MSASS method on Zurich Summer dataset. Our work contributes to the field of adversarial attacks in semantic segmentation for remote sensing images by improving stealthiness, flexibility, and robustness. We anticipate that our findings will inspire the development of defense methods to enhance the security and reliability of semantic segmentation models against our stealthy attack.