Escape Sensing Games: Detection-vs-Evasion in Security Applications
Abstract
Traditional game-theoretic research for security applications primarily focuses on the allocation of external protection resources to defend targets. This work puts forward the study of a new class of games centered around strategically arranging targets to protect them against a constrained adversary, with motivations from varied domains such as peacekeeping resource transit and cybersecurity. Specifically, we introduce Escape Sensing Games (ESGs). In ESGs, a blue player manages the order in which targets pass through a channel, while her opponent tries to capture the targets using a set of sensors that need some time to recharge after each activation. We present a thorough computational study of ESGs. Among others, we show that it is NP-hard to compute best responses and equilibria. Nevertheless, we propose a variety of effective (heuristic) algorithms whose quality we demonstrate in extensive computational experiments.
Keywords
Cite
@article{arxiv.2407.20981,
title = {Escape Sensing Games: Detection-vs-Evasion in Security Applications},
author = {Niclas Boehmer and Minbiao Han and Haifeng Xu and Milind Tambe},
journal= {arXiv preprint arXiv:2407.20981},
year = {2024}
}