Minimum cost and list homomorphisms to semicomplete digraphs |
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Authors: | Gregory Gutin Arash Rafiey |
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Affiliation: | a Department of Computer Science, Royal Holloway University of London, Egham, Surrey TW20 OEX, UK b Department of Computer Science, University of Haifa, Israel |
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Abstract: | For digraphs D and H, a mapping f:V(D)→V(H) is a homomorphism of D to H if uv∈A(D) implies f(u)f(v)∈A(H). Let H be a fixed directed or undirected graph. The homomorphism problem for H asks whether a directed or undirected input graph D admits a homomorphism to H. The list homomorphism problem for H is a generalization of the homomorphism problem for H, where every vertex x∈V(D) is assigned a set Lx of possible colors (vertices of H).The following optimization version of these decision problems generalizes the list homomorphism problem and was introduced in Gutin et al. [Level of repair analysis and minimum cost homomorphisms of graphs, Discrete Appl. Math., to appear], where it was motivated by a real-world problem in defence logistics. Suppose we are given a pair of digraphs D,H and a positive integral cost ci(u) for each u∈V(D) and i∈V(H). The cost of a homomorphism f of D to H is . For a fixed digraph H, the minimum cost homomorphism problem for H is stated as follows: for an input digraph D and costs ci(u) for each u∈V(D) and i∈V(H), verify whether there is a homomorphism of D to H and, if one exists, find such a homomorphism of minimum cost.We obtain dichotomy classifications of the computational complexity of the list homomorphism and minimum cost homomorphism problems, when H is a semicomplete digraph (digraph in which there is at least one arc between any two vertices). Our dichotomy for the list homomorphism problem coincides with the one obtained by Bang-Jensen, Hell and MacGillivray in 1988 for the homomorphism problem when H is a semicomplete digraph: both problems are polynomial solvable if H has at most one cycle; otherwise, both problems are NP-complete. The dichotomy for the minimum cost homomorphism problem is different: the problem is polynomial time solvable if H is acyclic or H is a cycle of length 2 or 3; otherwise, the problem is NP-hard. |
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Keywords: | Homomorphisms Digraphs Semicomplete digraphs |
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