The utilization of modular and reusable resources would reduce complexity and lead-time for the design of cyber-physical systems. Even if different theories have been proposed, there is not a general definition and metamodel applicable for reusable resources. Energetic approaches constitute the state of the art for modeling the dynamics of physical systems. Within this work, Power-Oriented Graphs energetic approach is adapted to cyber-physical systems in order to provide a definition for reusable resources. Eventually, a metamodel for reusable resources is proposed.
Design of cyber-physical systems: Definition and metamodel for reusable resources / Barbieri, G.; Fantuzzi, C.. - 2016-:(2016), pp. 1-9. ( 21st IEEE International Conference on Emerging Technologies and Factory Automation, ETFA 2016 deu 2016) [10.1109/ETFA.2016.7733733].
Design of cyber-physical systems: Definition and metamodel for reusable resources
Fantuzzi C.
2016
Abstract
The utilization of modular and reusable resources would reduce complexity and lead-time for the design of cyber-physical systems. Even if different theories have been proposed, there is not a general definition and metamodel applicable for reusable resources. Energetic approaches constitute the state of the art for modeling the dynamics of physical systems. Within this work, Power-Oriented Graphs energetic approach is adapted to cyber-physical systems in order to provide a definition for reusable resources. Eventually, a metamodel for reusable resources is proposed.
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