Influencer Backdoor Attack on Semantic Segmentation
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When a small number of poisoned samples are injected into the training dataset of a deep neural network, the network can be induced to exhibit malicious behavior during inferences, which poses potential threats to real-world applications. While they have been intensively studied in classification, backdoor attacks on semantic segmentation have been largely overlooked. Unlike classification, semantic segmentation aims to classify every pixel within a given image. In this work, we explore backdoor attacks on segmentation models to misclassify all pixels of a victim class by injecting a specific trigger on non-victim pixels during inferences, which is dubbed Influencer Backdoor Attack (IBA). IBA is expected to maintain the classification accuracy of non-victim pixels and misleads classifications of all victim pixels in every single inference. Specifically, we consider two types of IBA scenarios, i.e., 1) Free-position IBA: the trigger can be positioned freely except for pixels of the victim class, and 2) Long-distance IBA: the trigger can only be positioned somewhere far from victim pixels, given the possible practical constraint. Based on the context aggregation ability of segmentation models, we propose techniques to improve IBA for the scenarios. Concretely, for free-position IBA, we propose a simple, yet effective Nearest Neighbor trigger injection strategy for poisoned sample creation. For long-distance IBA, we propose a novel Pixel Random Labeling strategy. Our extensive experiments reveal that current segmentation models do suffer from backdoor attacks, and verify that our proposed techniques can further increase attack performance.
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