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Modularity Maximization Lifting (Graph to Hypergraph) #49

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@ValentinaSanchezMelchor ValentinaSanchezMelchor commented Jul 11, 2024

This is a novel lifting based on modularity maximization and community detection. This approach extends the spectral method for community detection described by Newman [1] to create a hypergraph representation that preserves the community structure of the original graph. This method is useful for preserving the global community structure of graphs, making it valuable for tasks that require understanding large-scale network organization. Examples of this are identifying functional modules in biological networks, detecting social circles in social networks, or uncovering thematic clusters in citation networks.

This approach works as follows:
(1) Compute the modularity matrix B of the graph.
(2) Perform spectral clustering on B to detect communities:
- Compute the leading eigenvectors of B
- Apply k-means clustering to these eigenvectors
(3) For each node i, create a hyperedge H_i containing:
- Node i itself
- The k nearest neighbors of i within its detected community

This method leverages both the graph structure (through the modularity matrix) and the original node features (for nearest neighbor calculations). It's particularly suitable for cases where the global structure and community organization of the graph are important.

The modularity matrix B is defined as:

$$B_{ij} = A_{ij} - \frac{k_i k_j}{2m}$$

where A is the adjacency matrix, k_i is the degree of node i, and m is the total number of edges.

Our method extends beyond traditional bi-partitioning by allowing for the detection of multiple communities, making it adaptable to more complex network structures. The number of communities and the size of the neighborhood for hyperedge creation are adjustable parameters.

Note that due to the random initialization in the k-means clustering step, this method is non-deterministic. This can be advantageous for exploring various possible community structures in the network.

The computational complexity is approximately $O(n^2 + nk + nct)$, where n is the number of nodes, k is the number of nearest neighbors, c is the number of communities, and t is the number of k-means iterations.

[1] Newman, M. E. J. (2013). Spectral methods for network community detection and graph partitioning. Physical Review E, 88(4), 042822. https://arxiv.org/abs/1307.7729

Submission by Valentina Sánchez [@ValentinaSanchezMelchor]

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@ValentinaSanchezMelchor ValentinaSanchezMelchor changed the title Modularity Maximization Lifting Modularity Maximization Lifting (Graph to Hypergraph) Jul 11, 2024
@gbg141 gbg141 added challenge-icml-2024 award-category-2 Lifting to Combinatorial, Hypergraph or Graph Domain award-category-3 Feature-based Lifting (including those that simultaneously leverage the connectivity) labels Jul 11, 2024
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gbg141 commented Jul 11, 2024

Hello @ValentinaSanchezMelchor! Thank you for your submission. As we near the end of the challenge, I am collecting participant info for the purpose of selecting and announcing winners. Please email me (or have one member of your team email me) at [email protected] so I can share access to the voting form. In your email, please include:

Before July 12, make sure that your submission respects all Submission Requirements laid out on the challenge page. Any submission that fails to meet this criteria will be automatically disqualified.

@gbg141 gbg141 added Winner Awarded submission and removed challenge-icml-2024 labels Oct 31, 2024
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