"Minimizing Running Costs in Consumption Systems"@en . . "V\u00EDde\u0148" . . "A standard approach to optimizing long-run running costs of discrete systems is based on minimizing the mean-payoff, i.e., the long-run average amount of resources (%22energy%22) consumed per transition. However, this approach inherently assumes that the energy source has an unbounded capacity, which is not always realistic. For example, an autonomous robotic device has a battery of finite capacity that has to be recharged periodically, and the total amount of energy consumed between two successive charging cycles is bounded by the capacity. Hence, a controller minimizing the mean-payoff must obey this restriction. In this paper we study the controller synthesis problem for consumption systems with a finite battery capacity, where the task of the controller is to minimize the mean-payoff while preserving the functionality of the system encoded by a given linear-time property."@en . "P(GAP202/10/1469)" . "RIV/00216224:14330/14:00074098!RIV15-GA0-14330___" . "9783319088662" . "10.1007/978-3-319-08867-9_30" . "RIV/00216224:14330/14:00074098" . . . "2014-01-01+01:00"^^ . . "29476" . "http://arxiv.org/abs/1402.4995" . "0302-9743" . "controller synthesis; consumption systems; mean payoff"@en . "Br\u00E1zdil, Tom\u00E1\u0161" . . "Minimizing Running Costs in Consumption Systems" . "Springer International Publishing" . "4"^^ . . "A standard approach to optimizing long-run running costs of discrete systems is based on minimizing the mean-payoff, i.e., the long-run average amount of resources (%22energy%22) consumed per transition. However, this approach inherently assumes that the energy source has an unbounded capacity, which is not always realistic. For example, an autonomous robotic device has a battery of finite capacity that has to be recharged periodically, and the total amount of energy consumed between two successive charging cycles is bounded by the capacity. Hence, a controller minimizing the mean-payoff must obey this restriction. In this paper we study the controller synthesis problem for consumption systems with a finite battery capacity, where the task of the controller is to minimize the mean-payoff while preserving the functionality of the system encoded by a given linear-time property." . . "Kla\u0161ka, David" . . . "Novotn\u00FD, Petr" . "Minimizing Running Costs in Consumption Systems"@en . "4"^^ . . . . . "Ku\u010Dera, Anton\u00EDn" . "Computer Aided Verification" . "16"^^ . "Neuveden" . . "Minimizing Running Costs in Consumption Systems" . "[FB20BDE7342D]" . . . . . "14330" .