Go to DBLP homepageReinterpreting Hypergraph Kernels: Insights Through Homomorphism Analysis
Abstract: Designing expressive hypergraph kernels that can effectively capture high-order structural information is a fundamental challenge in hypergraph learning. In this paper, we propose a novel comparison framework based on hypergraph homomorphisms to evaluate and compare the expressive ability of existing hypergraph kernels. We revisit classical kernels such as Hypergraph Weisfeiler-Lehman (HG WL) and Hypergraph Rooted kernels, providing theoretical conditions under which they fail to distinguish non-isomorphic hypergraphs. Motivated by these insights, we introduce the Hypergraph Subtree-Cycle Kernel, which augments subtree-based features with cycle-based structural patterns to enhance expressiveness. We propose two variants: HG SCKernelv1 and HG SCKernelv2. Extensive experiments on five graph and ten hypergraph classification benchmarks demonstrate the superior performance of our methods, confirming the effectiveness of integrating homomorphism-guided design into hypergraph kernels.
External IDs:dblp:journals/pami/ZhangDFYG26
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