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ICALP
2010
Springer

Sparse Reliable Graph Backbones

14 years 1 months ago
Sparse Reliable Graph Backbones
Given a connected graph G and a failure probability pe for each edge e in G, the reliability of G is the probability that G remains connected when each edge e is removed independently with probability pe. In this paper it is shown that every n-vertex graph contains a sparse backbone, i.e., a spanning subgraph with O(n log n) edges whose reliability is at least (1−n−Ω(1) ) times that of G. Moreover, for any pair of vertices s, t in G, the (s, t)-reliability of the backbone, namely, the probability that s and t remain connected, is also at least (1 − n−Ω(1) ) times that of G. Our proof is based on a polynomial time randomized algorithm for constructing the backbone. In addition, it is shown that the constructed backbone has nearly the same Tutte polynomial as the original graph (in the quarter-plane x ≥ 1, y > 1), and hence the graph and its backbone share many additional features encoded by the Tutte polynomial.
Shiri Chechik, Yuval Emek, Boaz Patt-Shamir, David
Added 12 Oct 2010
Updated 12 Oct 2010
Type Conference
Year 2010
Where ICALP
Authors Shiri Chechik, Yuval Emek, Boaz Patt-Shamir, David Peleg
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