On return path packing

Michael Lomonosov

doi:10.1016/j.ejc.2003.09.002

On return path packing

Michael Lomonosov

Department of Mathematics

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

We consider a path packing problem: given a supply graph G with a node-set N and a demand graph (T,S) with T⊆N, find the maximal number of edge-disjoint paths in G whose end-pairs belong to S; the network (G,T) is assumed to be Eulerian. Karzanov's condition on cliques of the complementary graph (T,S) (Polyhedra related to undirected multicommodity flows, Linear Algebra and its Applications 114/115 (1989) 293) appreciably restricts the class of such problems. The excluded cases are all known to be NP-hard, while the retained problems, except those related to the cut condition, are still open. The paper presents a max-min theorem for the easiest of these problems, with (T,S) isomorphic to K_2,r, r>2. The method implements an approach of "smooth relaxation" implicitly developed in prior research in the area. The proof is nonconstructive; the algorithmic aspect of the problem is still open.

Original language	English
Pages (from-to)	35-53
Number of pages	19
Journal	European Journal of Combinatorics
Volume	25
Issue number	1
DOIs	https://doi.org/10.1016/j.ejc.2003.09.002
State	Published - 1 Jan 2004

ASJC Scopus subject areas

Discrete Mathematics and Combinatorics

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10.1016/j.ejc.2003.09.002

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N2 - We consider a path packing problem: given a supply graph G with a node-set N and a demand graph (T,S) with T⊆N, find the maximal number of edge-disjoint paths in G whose end-pairs belong to S; the network (G,T) is assumed to be Eulerian. Karzanov's condition on cliques of the complementary graph (T,S) (Polyhedra related to undirected multicommodity flows, Linear Algebra and its Applications 114/115 (1989) 293) appreciably restricts the class of such problems. The excluded cases are all known to be NP-hard, while the retained problems, except those related to the cut condition, are still open. The paper presents a max-min theorem for the easiest of these problems, with (T,S) isomorphic to K2,r, r>2. The method implements an approach of "smooth relaxation" implicitly developed in prior research in the area. The proof is nonconstructive; the algorithmic aspect of the problem is still open.

AB - We consider a path packing problem: given a supply graph G with a node-set N and a demand graph (T,S) with T⊆N, find the maximal number of edge-disjoint paths in G whose end-pairs belong to S; the network (G,T) is assumed to be Eulerian. Karzanov's condition on cliques of the complementary graph (T,S) (Polyhedra related to undirected multicommodity flows, Linear Algebra and its Applications 114/115 (1989) 293) appreciably restricts the class of such problems. The excluded cases are all known to be NP-hard, while the retained problems, except those related to the cut condition, are still open. The paper presents a max-min theorem for the easiest of these problems, with (T,S) isomorphic to K2,r, r>2. The method implements an approach of "smooth relaxation" implicitly developed in prior research in the area. The proof is nonconstructive; the algorithmic aspect of the problem is still open.

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JO - European Journal of Combinatorics

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On return path packing

Abstract

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