Complexity of the General Chromatic Art Gallery Problem

Abstract

In the original Art Gallery Problem (AGP), one seeks the minimum number of guards required to cover a polygon P. We consider the Chromatic AGP (CAGP), where the guards are colored. As long as P is completely covered, the number of guards does not matter, but guards with overlapping visibility regions must have different colors. This problem has applications in landmark-based mobile robot navigation: Guards are landmarks, which have to be distinguishable (hence the colors), and are used to encode motion primitives, , "move towards the red landmark". Let G(P), the chromatic number of P, denote the minimum number of colors required to color any guard cover of P. We show that determining, whether G(P) ≤ k is -hard for all k ≥ 2. Keeping the number of colors minimal is of great interest for robot navigation, because less types of landmarks lead to cheaper and more reliable recognition.