A Self-explaining Neural Architecture for Generalizable Concept Learning
A Self-explaining Neural Architecture for Generalizable Concept Learning
Sanchit Sinha, Guangzhi Xiong, Aidong Zhang
Proceedings of the Thirty-Third International Joint Conference on Artificial Intelligence
Main Track. Pages 503-511.
https://doi.org/10.24963/ijcai.2024/56
With the wide proliferation of Deep Neural Networks in high-stake applications, there is a growing demand for explainability behind their decision-making process. Concept learning models attempt to learn high-level 'concepts' - abstract entities that align with human understanding, and thus provide interpretability to DNN architectures. However, in this paper, we demonstrate that present SOTA concept learning approaches suffer from two major problems - lack of concept fidelity wherein the models fail to learn consistent concepts among similar classes and limited concept interoperability wherein the models fail to generalize learned concepts to new domains for the same task. Keeping these in mind, we propose a novel self-explaining architecture for concept learning across domains which - i) incorporates a new concept saliency network for representative concept selection, ii) utilizes contrastive learning to capture representative domain invariant concepts, and iii) uses a novel prototype-based concept grounding regularization to improve concept alignment across domains. We demonstrate the efficacy of our proposed approach over current SOTA concept learning approaches on four widely used real-world datasets. Empirical results show that our method improves both concept fidelity measured through concept overlap and concept interoperability measured through domain adaptation performance. An appendix of the paper with more comprehensive results can also be viewed at https://arxiv.org/abs/2405.00349.
Keywords:
AI Ethics, Trust, Fairness: ETF: Explainability and interpretability
AI Ethics, Trust, Fairness: ETF: Trustworthy AI
Computer Vision: CV: Transfer, low-shot, semi- and un- supervised learning
Machine Learning: ML: Explainable/Interpretable machine learning