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Modeling the Functional Network for Spatial Navigation in the Human Brain
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Hypergraph neural diffusion networks.

Fengcheng Lu1, Michael Ng2, Andy Yip3

  • 1Department of Mathematics, The University of Hong Kong, Hong Kong, China.

Neural Networks : the Official Journal of the International Neural Network Society
|November 17, 2025
PubMed
Summary
This summary is machine-generated.

We introduce Hypergraph Neural Diffusion Networks (HNDiffN) for hypergraph learning. This novel approach uses continuous-time diffusion equations for stable node and hyperedge embeddings, outperforming existing methods in semi-supervised classification.

Keywords:
Diffusion processesDiscretization schemesHypergraph representation learning

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Area of Science:

  • Machine Learning
  • Graph Theory
  • Computational Mathematics

Background:

  • Hypergraphs represent complex relationships beyond pairwise interactions.
  • Learning embeddings in hypergraphs is challenging due to higher-order structures.
  • Existing graph neural networks struggle with hypergraph complexities and stability.

Purpose of the Study:

  • To develop a novel neural network architecture for hypergraph representation learning.
  • To introduce a continuous-time diffusion process on hypergraphs for stable embeddings.
  • To enhance semi-supervised classification performance on hypergraph data.

Main Methods:

  • Formulating a continuous-time diffusion equation on hypergraphs involving nodes and hyperedges.
  • Employing numerical differential equation schemes to construct Hypergraph Neural Diffusion Networks (HNDiffN).
  • Investigating similarities with staggered grid formulations in computational fluid dynamics for model interpretation.

Main Results:

  • HNDiffN consistently outperformed baseline methods in semi-supervised classification tasks.
  • The proposed model demonstrated stable prediction accuracy with increasing network depth.
  • Controlled network gradients via the differential equation approach mitigated the depth dilemma.

Conclusions:

  • HNDiffN offers a stable and effective approach for node and hyperedge embedding in hypergraphs.
  • The differential equation framework provides superior stability and performance compared to traditional graph methods.
  • This work opens new avenues for applying diffusion models to complex relational data.