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[BBF+18] | Giovanni Bacci,
Patricia Bouyer,
Uli Fahrenberg,
Kim Guldstrand Larsen,
Nicolas Markey et
Pierre-Alain Reynier.
Optimal and Robust Controller Synthesis Using Energy
Timed Automata with Uncertainty.
In FM'18,
Lecture Notes in Computer Science 10951, pages 203-221. Springer-Verlag, juillet 2018.
@inproceedings{fm2018-BBFLMR, author = {Bacci, Giovanni and Bouyer, Patricia and Fahrenberg, Uli and Larsen, Kim Guldstrand and Markey, Nicolas and Reynier, Pierre-Alain}, title = {Optimal and Robust Controller Synthesis Using Energy Timed Automata with Uncertainty}, editor = {Havelund, Klaus and Peleska, Jan and Roscoe, Bill W. and de Vink, Erik}, booktitle = {{P}roceedings of the 22nd {I}nternational {S}ymposium on {F}ormal {M}ethods ({FM}'18)}, acronym = {{FM}'18}, publisher = {Springer-Verlag}, series = {Lecture Notes in Computer Science}, volume = {10951}, pages = {203-221}, year = {2018}, month = jul, doi = {10.1007/978-3-319-95582-7_12}, abstract = {In this paper, we propose a novel framework for the synthesis of robust and optimal energy-aware controllers. The framework is based on energy timed automata, allowing for easy expression of timing-constraints and variable energy-rates. We prove decidability of the energy-constrained infinite-run problem in settings with both certainty and uncertainty of the energy-rates. We also consider the optimization problem of identifying the minimal upper bound that will permit existence of energy-constrained infinite runs. Our algorithms are based on quantifier elimination for linear real arithmetic. Using Mathematica and Mjollnir, we illustrate our framework through a real industrial example of a hydraulic oil pump. Compared with previous approaches our method is completely automated and provides improved results.}, } |
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