| Document Date: 2011-11-08 14:37:34
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City Paderborn / Potsdam / / Company Reconfigurable Hybrid Systems / Reconfigurable Systems / Robust / / Country Germany / / / Event Reorganization / / Facility Hasso Plattner Institute / University of Paderborn / building Shuttles / University Potsdam / / IndustryTerm car body sensors / mechatronic systems / software engineering / continuous and hybrid systems / computer systems / energy consumption / cross product / reactive systems / hybrid graph transformation systems / feasible solution / subsequent symbolic and numerical processing / real-time evaluation / real-time processing / hierarchical hybrid systems / real-time applications / software components / hard real-time constraints / high speed transportation / industrial strength solution / control software / real-time requirements / continuous systems / hybrid systems / required efficient solution / software engineering domain / automata timed automata story pattern graph transformation systems / real-time constraints / / Organization University of Paderborn / US Federal Reserve / ND ND / Hasso Plattner Institute / / Person Holger Giese / Figure / / Position body controller / coach / actuators controller / Comfort Controller / Proportional-integral-derivative-time controller / controller / / ProgrammingLanguage Unified Modeling Language / Esterel / MATLAB / Java / Stateflow / Simulink / C++ / / Technology Java / simulation / / URL www.mathworks.com / www.simpack.com / http /
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A Multi-Paradigm Approach Supporting the Modular Execution of Reconfigurable Hybrid Systems ∗ Holger Giese,1 Stefan Henkler2 and Martin Hirsch2 1 System Analysis and Modeling Group, Hasso Plattner Institute at the Uni