Input-Aware Dynamic Backdoor Attack
This addresses a security threat for deep learning systems by making backdoor attacks more stealthy and harder to detect, representing an incremental improvement over uniform trigger methods.
The paper tackles the vulnerability of neural backdoor attacks to detection by proposing an input-aware dynamic trigger method, which varies triggers per input and achieves stealthiness that bypasses state-of-the-art defenses.
In recent years, neural backdoor attack has been considered to be a potential security threat to deep learning systems. Such systems, while achieving the state-of-the-art performance on clean data, perform abnormally on inputs with predefined triggers. Current backdoor techniques, however, rely on uniform trigger patterns, which are easily detected and mitigated by current defense methods. In this work, we propose a novel backdoor attack technique in which the triggers vary from input to input. To achieve this goal, we implement an input-aware trigger generator driven by diversity loss. A novel cross-trigger test is applied to enforce trigger nonreusablity, making backdoor verification impossible. Experiments show that our method is efficient in various attack scenarios as well as multiple datasets. We further demonstrate that our backdoor can bypass the state of the art defense methods. An analysis with a famous neural network inspector again proves the stealthiness of the proposed attack. Our code is publicly available at https://github.com/VinAIResearch/input-aware-backdoor-attack-release.