Optimizing Expected Time Utility in Cyber-Physical Systems Schedulers
Real-Time Systems Symposium(2010)
摘要
Classical scheduling abstractions such as deadlines and priorities do not readily capture the complex timing semantics found in many real-time cyber-physical systems. Time utility functions provide a necessarily richer description of timing semantics, but designing utility-aware scheduling policies using them is an open research problem. In particular, scheduling design that optimizes expected utility accrual is needed for real-time cyber-physical domains. In this paper we design scheduling policies that optimize expected utility accrual for cyber-physical systems with periodic, non-preemptable tasks that run with stochastic duration. These policies are derived by solving a Markov Decision Process formulation of the scheduling problem. We use this formulation to demonstrate that our technique improves on existing heuristic utility accrual scheduling policies.
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关键词
utility accrual,stochastic duration,heuristic utility accrual scheduling policies,scheduling,nonpreemptable tasks,time utility function,complex timing semantics,markov decision process formulation,cyber-physical system,utility-aware scheduling policies,classical scheduling,cyber-physical systems schedulers,utility-aware scheduling policy,utility functions,scheduling design,real-time cyber-physical domain,expected time utility optimization,scheduling problem,real-time cyber-physical systems,real-time cyber-physical system,optimizing expected time utility,markov processes,cyber-physical domains,heuristic utility accrual scheduling,markov decision process,cyber physical systems,semantics,real time systems,expected utility,real time
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