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FOCS
1995
IEEE

Disjoint Paths in Densely Embedded Graphs

14 years 4 months ago
Disjoint Paths in Densely Embedded Graphs
We consider the following maximum disjoint paths problem (mdpp). We are given a large network, and pairs of nodes that wish to communicate over paths through the network — the goal is to simultaneously connect as many of these pairs as possible in such a way that no two communication paths share an edge in the network. This classical problem has been brought into focus recently in papers discussing applications to routing in high-speed networks, where the current lack of understanding of the mdpp is an obstacle to the design of practical heuristics. We consider the class of densely embedded, nearly-Eulerian graphs, which includes the two-dimensional mesh and many other planar and locally planar interconnection networks. We obtain a constant-factor approximation algorithm for the maximum disjoint paths problem for this class of graphs; this improves on an O(log n)-approximation for the special case of the two-dimensional mesh due to Aumann–Rabani and the authors. For networks that ...
Jon M. Kleinberg, Éva Tardos
Added 26 Aug 2010
Updated 26 Aug 2010
Type Conference
Year 1995
Where FOCS
Authors Jon M. Kleinberg, Éva Tardos
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