Explanations on relational data are hard to verify since the explanation structures are more complex (e.g. graphs). To verify interpretable explanations (e.g. explanations of predictions made in images, text, etc.), typically human subjects are used since it does not necessarily require a lot of expertise. However, to verify the quality of a relational explanation requires expertise and is hard to scale-up. GNNExplainer is arguably one of the most popular explanation methods for Graph Neural Networks. In this paper, we develop an approach where we assess the uncertainty in explanations generated by GNNExplainer. Specifically, we ask the explainer to generate explanations for several counterfactual examples. We generate these examples as symmetric approximations of the relational structure in the original data. From these explanations, we learn a factor graph model to quantify uncertainty in an explanation. Our results on several datasets show that our approach can help verify explanations from GNNExplainer by reliably estimating the uncertainty of a relation specified in the explanation.
@article{arxiv.2401.02703,
title = {Verifying Relational Explanations: A Probabilistic Approach},
author = {Abisha Thapa Magar and Anup Shakya and Somdeb Sarkhel and Deepak Venugopal},
journal= {arXiv preprint arXiv:2401.02703},
year = {2024}
}
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Published in Proceedings of 2023 IEEE Conference on Big Data