Average-energy games - Archive ouverte HAL
Article Dans Une Revue Acta Informatica Année : 2018

Average-energy games

Résumé

Two-player quantitative zero-sum games provide a natural framework to synthesize controllers with performance guarantees for reactive systems within an uncontrollable environment. Classical settings include mean-payoff games, where the objective is to optimize the long-run average gain per action, and energy games, where the system has to avoid running out of energy. We study average-energy games, where the goal is to optimize the long-run average of the accumulated energy. We show that this objective arises naturally in several applications, and that it yields interesting connections with previous concepts in the literature. We prove that deciding the winner in such games is in NP ∩ coNP and at least as hard as solving mean-payoff games, and we establish that memoryless strategies suffice to win. We also consider the case where the system has to minimize the average-energy while maintaining the accumulated energy within predefined bounds at all times: this corresponds to operating with a finite-capacity storage for energy. We give results for one-player and two-player games, and establish complexity bounds and memory requirements. Work partially supported by European project CASSTING (FP7-ICT-601148) and ERC project EQualIS (StG-308087). Mickael Randour is an F.R.S.-FNRS Postdoctoral Researcher.
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Dates et versions

hal-01889005 , version 1 (05-10-2018)

Identifiants

Citer

Patricia Bouyer, Nicolas Markey, Mickaël Randour, Kim G. Larsen, Simon Laursen. Average-energy games. Acta Informatica, 2018, 55 (2), pp.91 - 127. ⟨10.1007/s00236-016-0274-1⟩. ⟨hal-01889005⟩
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