Abstract
Semi-Markov decision processes (SMDPs) are continuous-time Markov decision processes where the residence-time on states is governed by generic distributions on the positive real line.
In this paper we consider the problem of comparing two SMDPs with respect to their time-dependent behaviour. We propose a hemimetric between processes, which we call simulation distance, measuring the least acceleration factor by which a process needs to speed up its actions in order to behave at least as fast as another process. We show that this distance can be computed in time \(\mathcal {O}(n^2 (f(l) + k) + mn^7)\), where n is the number of states, m the number of actions, k the number of atomic propositions, and f(l) the complexity of comparing the residence-time between states. The theoretical relevance and applicability of this distance is further argued by showing that (i) it is suitable for compositional reasoning with respect to CSP-like parallel composition and (ii) has a logical characterisation in terms of a simple Markovian logic.
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- 1.
As is standard, we consider numbers to be represented as floating points of bounded size in their binary representation.
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Acknowledgments
We thank the anonymous reviewers for helpful suggestions as well as Robert Furber and Giovanni Bacci for insightful discussions. This research was supported by the Danish FTP project ASAP, the ERC Advanced Grant LASSO, and the Sino-Danish Basic Research Center IDEA4CPS.
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Pedersen, M.R., Bacci, G., Larsen, K.G., Mardare, R. (2018). A Hemimetric Extension of Simulation for Semi-Markov Decision Processes. In: McIver, A., Horvath, A. (eds) Quantitative Evaluation of Systems. QEST 2018. Lecture Notes in Computer Science(), vol 11024. Springer, Cham. https://doi.org/10.1007/978-3-319-99154-2_21
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