The complexity of tropical graph homomorphisms

July 16, 2016 Β· Declared Dead Β· πŸ› Discrete Applied Mathematics

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Authors Florent Foucaud, Ararat Harutyunyan, Pavol Hell, Sylvain Legay, Yannis Manoussakis, Reza Naserasr arXiv ID 1607.04777 Category cs.DS: Data Structures & Algorithms Cross-listed cs.DM, math.CO Citations 8 Venue Discrete Applied Mathematics Last Checked 4 months ago
Abstract
A tropical graph $(H,c)$ consists of a graph $H$ and a (not necessarily proper) vertex-colouring $c$ of $H$. Given two tropical graphs $(G,c_1)$ and $(H,c)$, a homomorphism of $(G,c_1)$ to $(H,c)$ is a standard graph homomorphism of $G$ to $H$ that also preserves the vertex-colours. We initiate the study of the computational complexity of tropical graph homomorphism problems. We consider two settings. First, when the tropical graph $(H,c)$ is fixed; this is a problem called $(H,c)$-COLOURING. Second, when the colouring of $H$ is part of the input; the associated decision problem is called $H$-TROPICAL-COLOURING. Each $(H,c)$-COLOURING problem is a constraint satisfaction problem (CSP), and we show that a complexity dichotomy for the class of $(H,c)$-COLOURING problems holds if and only if the Feder-Vardi Dichotomy Conjecture for CSPs is true. This implies that $(H,c)$-COLOURING problems form a rich class of decision problems. On the other hand, we were successful in classifying the complexity of at least certain classes of $H$-TROPICAL-COLOURING problems.
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