English

Computing Diffusion State Distance using Green's Function and Heat Kernel on Graphs

Combinatorics 2014-10-14 v1
Authors: Edward Boehnlein , Peter Chin , Amit Sinha , Linyuan Lu
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Abstract

The diffusion state distance (DSD) was introduced by Cao-Zhang-Park-Daniels-Crovella-Cowen-Hescott [{\em PLoS ONE, 2013}] to capture functional similarity in protein-protein interaction networks. They proved the convergence of DSD for non-bipartite graphs. In this paper, we extend the DSD to bipartite graphs using lazy-random walks and consider the general LqL_q-version of DSD. We discovered the connection between the DSD LqL_q-distance and Green's function, which was studied by Chung and Yau [{\em J. Combinatorial Theory (A), 2000}]. Based on that, we computed the DSD LqL_q-distance for Paths, Cycles, Hypercubes, as well as random graphs G(n,p)G(n,p) and G(w1,...,wn)G(w_1,..., w_n). We also examined the DSD distances of two biological networks.

Cite

@article{arxiv.1410.3168,
  title  = {Computing Diffusion State Distance using Green's Function and Heat Kernel on Graphs},
  author = {Edward Boehnlein and Peter Chin and Amit Sinha and Linyuan Lu},
  journal= {arXiv preprint arXiv:1410.3168},
  year   = {2014}
}

Comments

Accepted by the 11th Workshop on Algorithms and Models for the Web Graph (WAW2014)

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