Programming combined discrete-continuous simulation models for performance
WSC '96 Proceedings of the 28th conference on Winter simulation
The Department of Defense High Level Architecture
Proceedings of the 29th conference on Winter simulation
Distributed simulation of hybrid systems with AnyLogic and HLA
Future Generation Computer Systems - Parallel computing technologies (PaCT-2001)
A framework for the measurement of software quality
Proceedings of the software quality assurance workshop on Functional and performance issues
Generic discrete-continuous simulation model for accurate validation in heterogeneous systems design
Microelectronics Journal
Handbook of Dynamic System Modeling (Cpaman & Hall/Crc Computer and Information Science)
Handbook of Dynamic System Modeling (Cpaman & Hall/Crc Computer and Information Science)
Operational semantics of hybrid systems
Operational semantics of hybrid systems
Integrated hybrid systems modeling and simulation methodology based on HDEVS formalism
Proceedings of the 2013 Summer Computer Simulation Conference
Development and Evaluation of Distributed Simulation of Embedded Systems Using Ptolemy and HLA
DS-RT '13 Proceedings of the 2013 IEEE/ACM 17th International Symposium on Distributed Simulation and Real Time Applications
| Hi-index | 0.00 |
A hybrid system is a combination of discrete event and continuous systems that act together to perform a function not possible with any one of the individual system types alone. A simulation model for the system consists of two sub-models, a continuous system model, and a discrete event model, and interfaces between them. Naturally, the modeling/simulation tool/environment of each sub- model may be different and specific to the model types and the associated modeling formalisms. This paper proposes a framework for simulating hybrid systems by means of interoperation between existing simulators for a continuous model and a discrete event model using a High Level Architecture (HLA). Each simulator is executed using different simulation algorithm, and pre-simulation methodology is applied for synchronization of the different simulators. The main advantage of the proposed approach is the reuse of simulation models, which are developed in their own simulation environments of heterogeneous types. The proposed framework was applied to water level simulation.