Context-Aware Systems and Applications. 4th International Conference, ICCASA 2015, Vung Tau, Vietnam, November 26-27, 2015, Revised Selected Papers

Research Article

A Federated Approach for Simulations in Cyber-Physical Systems

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  • @INPROCEEDINGS{10.1007/978-3-319-29236-6_17,
        author={Hoang Tran and Tuyen Truong and Khoa Nguyen and Hiep Huynh and Bernard Pottier},
        title={A Federated Approach for Simulations in Cyber-Physical Systems},
        proceedings={Context-Aware Systems and Applications. 4th International Conference, ICCASA 2015, Vung Tau, Vietnam, November 26-27, 2015, Revised Selected Papers},
        proceedings_a={ICCASA},
        year={2016},
        month={4},
        keywords={Cyber-Physical System (CPS) Cellular Automata (CA) Federation High Level Architecture (HLA) Mixed simulations},
        doi={10.1007/978-3-319-29236-6_17}
    }
    
  • Hoang Tran
    Tuyen Truong
    Khoa Nguyen
    Hiep Huynh
    Bernard Pottier
    Year: 2016
    A Federated Approach for Simulations in Cyber-Physical Systems
    ICCASA
    Springer
    DOI: 10.1007/978-3-319-29236-6_17
Hoang Tran1,*, Tuyen Truong1,*, Khoa Nguyen1,*, Hiep Huynh2,*, Bernard Pottier1,*
  • 1: Université de Bretagne Occidentale
  • 2: Can Tho University
*Contact email: tvhoang75@gmail.com, tptuyen@gmail.com, ngthanhkhoa@gmail.com, hxhiep@ctu.edu.vn, pottier@univ-brest.fr

Abstract

In this paper, we propose a new approach to federate simulations for cyber-physical systems. A federation is a combination of simulations being able to interact with each other upon a standard of communication. In addition, mixed simulations are defined as several parallel simulations that are taken place in a common time progress. These simulations run on the models of physical systems, which are built based on cellular automata. The experimental results are performed on a typical federation of three simulations for forest fire spread, river pollution diffusion and wireless sensor network. The obtained results can be used to predict as well as observe the behavior of physical systems in their interactions.