A Classification-Guided Approach for Adversarial Attacks against Neural Machine Translation

Neural Machine Translation (NMT) models have been shown to be vulnerable to adversarial attacks, wherein carefully crafted perturbations of the input can mislead the target model. In this paper, we introduce ACT, a novel adversarial attack framework against NMT systems guided by a classifier. In our attack, the adversary aims to craft meaning-preserving adversarial examples whose translations by the NMT model belong to a different class than the original translations in the target language. Unlike previous attacks, our new approach has a more substantial effect on the translation by altering the overall meaning, which leads to a different class determined by a classifier. To evaluate the robustness of NMT models to this attack, we propose enhancements to existing black-box word-replacement-based attacks by incorporating output translations of the target NMT model and the output logits of a classifier within the attack process. Extensive experiments in various settings, including a comparison with existing untargeted attacks, demonstrate that the proposed attack is considerably more successful in altering the class of the output translation and has more effect on the translation. This new paradigm can show the vulnerabilities of NMT systems by focusing on the class of translation rather than the mere translation quality as studied traditionally.