Understanding and Enhancing Robustness of Concept-Based Models
DOI:
https://doi.org/10.1609/aaai.v37i12.26765Keywords:
GeneralAbstract
Rising usage of deep neural networks to perform decision making in critical applications like medical diagnosis and fi- nancial analysis have raised concerns regarding their reliability and trustworthiness. As automated systems become more mainstream, it is important their decisions be transparent, reliable and understandable by humans for better trust and confidence. To this effect, concept-based models such as Concept Bottleneck Models (CBMs) and Self-Explaining Neural Networks (SENN) have been proposed which constrain the latent space of a model to represent high level concepts easily understood by domain experts in the field. Although concept-based models promise a good approach to both increasing explainability and reliability, it is yet to be shown if they demonstrate robustness and output consistent concepts under systematic perturbations to their inputs. To better understand performance of concept-based models on curated malicious samples, in this paper, we aim to study their robustness to adversarial perturbations, which are also known as the imperceptible changes to the input data that are crafted by an attacker to fool a well-learned concept-based model. Specifically, we first propose and analyze different malicious attacks to evaluate the security vulnerability of concept based models. Subsequently, we propose a potential general adversarial training-based defense mechanism to increase robustness of these systems to the proposed malicious attacks. Extensive experiments on one synthetic and two real-world datasets demonstrate the effectiveness of the proposed attacks and the defense approach. An appendix of the paper with more comprehensive results can also be viewed at https://arxiv.org/abs/2211.16080.
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Published
2023-06-26
How to Cite
Sinha, S., Huai, M., Sun, J., & Zhang, A. (2023). Understanding and Enhancing Robustness of Concept-Based Models. Proceedings of the AAAI Conference on Artificial Intelligence, 37(12), 15127-15135. https://doi.org/10.1609/aaai.v37i12.26765
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Section
AAAI Special Track on Safe and Robust AI
