Improved Achievability and Converse Bounds for Erdős-Rényi Graph Matching

February 02, 2016 · Declared Dead · 🏛 Measurement and Modeling of Computer Systems

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Authors Daniel Cullina, Negar Kiyavash arXiv ID 1602.01042 Category cs.IT: Information Theory Cross-listed cs.LG Citations 120 Venue Measurement and Modeling of Computer Systems Last Checked 4 months ago
Abstract
We consider the problem of perfectly recovering the vertex correspondence between two correlated Erdős-Rényi (ER) graphs. For a pair of correlated graphs on the same vertex set, the correspondence between the vertices can be obscured by randomly permuting the vertex labels of one of the graphs. In some cases, the structural information in the graphs allow this correspondence to be recovered. We investigate the information-theoretic threshold for exact recovery, i.e. the conditions under which the entire vertex correspondence can be correctly recovered given unbounded computational resources. Pedarsani and Grossglauser provided an achievability result of this type. Their result establishes the scaling dependence of the threshold on the number of vertices. We improve on their achievability bound. We also provide a converse bound, establishing conditions under which exact recovery is impossible. Together, these establish the scaling dependence of the threshold on the level of correlation between the two graphs. The converse and achievability bounds differ by a factor of two for sparse, significantly correlated graphs.
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