Neural Gaussian Similarity Modeling for Differential Graph Structure Learning
DOI:
https://doi.org/10.1609/aaai.v38i11.29078Keywords:
ML: Graph-based Machine Learning, DMKM: Graph Mining, Social Network Analysis & Community, ML: Deep Learning AlgorithmsAbstract
Graph Structure Learning (GSL) has demonstrated considerable potential in the analysis of graph-unknown non-Euclidean data across a wide range of domains. However, constructing an end-to-end graph structure learning model poses a challenge due to the impediment of gradient flow caused by the nearest neighbor sampling strategy. In this paper, we construct a differential graph structure learning model by replacing the non-differentiable nearest neighbor sampling with a differentiable sampling using the reparameterization trick. Under this framework, we argue that the act of sampling nearest neighbors may not invariably be essential, particularly in instances where node features exhibit a significant degree of similarity. To alleviate this issue, the bell-shaped Gaussian Similarity (GauSim) modeling is proposed to sample non-nearest neighbors. To adaptively model the similarity, we further propose Neural Gaussian Similarity (NeuralGauSim) with learnable parameters featuring flexible sampling behaviors. In addition, we develop a scalable method by transferring the large-scale graph to the transition graph to significantly reduce the complexity. Experimental results demonstrate the effectiveness of the proposed methods.
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Published
2024-03-24
How to Cite
Fan, X., Gong, M., Wu, Y., Tang, Z., & Liu, J. (2024). Neural Gaussian Similarity Modeling for Differential Graph Structure Learning. Proceedings of the AAAI Conference on Artificial Intelligence, 38(11), 11919-11926. https://doi.org/10.1609/aaai.v38i11.29078
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Section
AAAI Technical Track on Machine Learning II
