Parameterized Analysis of the Cops and Robber Problem
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Pursuit-evasion games have been intensively studied for several decades due to their numerous applications in artificial intelligence, robot motion planning, database theory, distributed computing, and algorithmic theory. Cops and Robber () is one of the most well-known pursuit-evasion games played on graphs, where multiple cops pursue a single robber. The aim is to compute the cop number of a graph, k, which is the minimum number of cops that ensures the capture of the robber. From the viewpoint of parameterized complexity, is W[2]-hard parameterized by kΒ [Fomin et al., TCS, 2010]. Thus, we study structural parameters of the input graph. We begin with the vertex cover number (ππΌπ). First, we establish that k β€ππΌπ/3+1. Second, we prove that parameterized by ππΌπ is by designing an exponential kernel. We complement this result by showing that it is unlikely for parameterized by ππΌπ to admit a polynomial compression. We extend our exponential kernels to the parameters cluster vertex deletion number and deletion to stars number, and design a linear vertex kernel for neighborhood diversity. Additionally, we extend all of our results to several well-studied variations of .
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