Graph Invariant Kernels.
Graph Invariant Kernels.
We introduce a novel kernel that upgrades the Weisfeiler-Lehman and other graph kernels to effectively exploit high dimensional and continuous vertex attributes. Graphs are first decomposed into subgraphs. Vertices of the subgraphs are then compared by a kernel that combines the similarity of their labels and the similarity of their structural role, using a suitable vertex invariant. By changing this invariant we obtain a family of graph kernels which includes generalizations of Weisfeiler-Lehman, NSPDK, and propagation kernels. We demonstrate empirically that these kernels obtain state-of-the-art results on relational data sets.
- University of Florence Italy
- KU Leuven Belgium
graph kernels, Technology, Science & Technology, Computer Science, Machine Learning; kernel methods; Graph kernels, Computer Science, Interdisciplinary Applications, Computer Science, Artificial Intelligence
graph kernels, Technology, Science & Technology, Computer Science, Machine Learning; kernel methods; Graph kernels, Computer Science, Interdisciplinary Applications, Computer Science, Artificial Intelligence
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