Complexity Results for a Cops and Robber Game on Directed Graphs

Walid Ben-Ameur; Alessandro Maddaloni

doi:10.1002/net.22284

Complexity Results for a Cops and Robber Game on Directed Graphs

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Abstract

We investigate a cops and robber game on directed graphs, where the robber moves along the arcs of the graph, whereas the cops can select any position at each time step. Our main focus is on the cop number: the minimum number of cops required to guarantee the capture of the robber. We prove that deciding whether the cop number of a digraph is equal to 1 is NP-hard, whereas this is decidable in polynomial time for tournaments. Furthermore, we show that computing the cop number for general digraphs is fixed parameter tractable when parameterized by a generalization of vertex cover. However, for tournaments, tractability is achieved with respect to the minimum size of a feedback vertex set. Among our findings, we prove that the cop number of a digraph is equal to that of its reverse digraph, and we draw connections to the matrix mortality problem.

Original language	English
Pages (from-to)	144-156
Number of pages	13
Journal	Networks
Volume	86
Issue number	2
DOIs	https://doi.org/10.1002/net.22284
Publication status	Published - 1 Sept 2025

Keywords

complexity
cop number
cops and robber games
digraphs
fixed-parameter tractability
hunters and rabbit
matrix mortality

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10.1002/net.22284

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abstract = "We investigate a cops and robber game on directed graphs, where the robber moves along the arcs of the graph, whereas the cops can select any position at each time step. Our main focus is on the cop number: the minimum number of cops required to guarantee the capture of the robber. We prove that deciding whether the cop number of a digraph is equal to 1 is NP-hard, whereas this is decidable in polynomial time for tournaments. Furthermore, we show that computing the cop number for general digraphs is fixed parameter tractable when parameterized by a generalization of vertex cover. However, for tournaments, tractability is achieved with respect to the minimum size of a feedback vertex set. Among our findings, we prove that the cop number of a digraph is equal to that of its reverse digraph, and we draw connections to the matrix mortality problem.",

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AB - We investigate a cops and robber game on directed graphs, where the robber moves along the arcs of the graph, whereas the cops can select any position at each time step. Our main focus is on the cop number: the minimum number of cops required to guarantee the capture of the robber. We prove that deciding whether the cop number of a digraph is equal to 1 is NP-hard, whereas this is decidable in polynomial time for tournaments. Furthermore, we show that computing the cop number for general digraphs is fixed parameter tractable when parameterized by a generalization of vertex cover. However, for tournaments, tractability is achieved with respect to the minimum size of a feedback vertex set. Among our findings, we prove that the cop number of a digraph is equal to that of its reverse digraph, and we draw connections to the matrix mortality problem.

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Complexity Results for a Cops and Robber Game on Directed Graphs

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