This paper introduces a new integer programming game (IPG) named the Edge-weighted Budgeted Maximum Coverage (EBMC) game and proposes a new algorithm, the Best Response Plus (BR-plus) algorithm, for finding the best Pure Nash Equilibrium (PNE). We demonstrate this methodology by optimizing county-level decisions to prevent aquatic invasive species (AIS) in Minnesota lakes, where each county-level decision makers has self-serving objectives while AIS is an interconnected issue that crosses county borders. Specifically, we develop EBMC games to model the strategic interactions among county-level decision-makers with two variations in utility functions. We also study and prove the existence of a PNE in these models under specified conditions. We advance the current state-of-the-art, which is limited to only a few players, by presenting the BR-plus algorithm that can handle a large set of players via utilizing the best response dynamics for finding PNE in normal-form games. Experimental results show that our BR-plus algorithm offers computational advantages over the ZR algorithm, especially in larger games, on both random and real-world networks.
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