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Volume 38 Issue 3
Mar.  2012
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Journal of Beijing University of Aeronautics and Astronautics  > 2012  >  (3): 368-373.
Du Zhenggang, Gao Yushan, Li Mao, et al. Numerical simulation of dual shear coaxial gas-gas injector[J]. Journal of Beijing University of Aeronautics and Astronautics, 2009, 35(6): 683-686. (in Chinese)
Citation: Li Yuan, Li Bohu, Hu Xiaofeng, et al. Framework for multi-resolution modeling based on BOM and FEDEP[J]. Journal of Beijing University of Aeronautics and Astronautics, 2012, (3): 368-373. (in Chinese)
shu

Framework for multi-resolution modeling based on BOM and FEDEP

  • 1.

    School of Automation Science and Electrical Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China

  • 2. Department of Information Warfare and Command Training, National Defense University, Beijing 100091, China

  • 3. Beijing Simulation Center, Beijing 100854, China

  • Received Date: 15 Oct 2010
  • Publish Date: 30 Mar 2012
    Abstract
  • To normalize and generalize representing multi-resolution models (MRMs) and the process as well as the activities in multi-resolution modeling (MRM), a framework for MRM based on base object model (BOM) and federation development and execution process (FEDEP) was put forward. The framework is comprised of three MRM approaches based on BOM and a MRM process based on FEDEP. The three methods were introduced briefly. By setting forth those fundamental activities in FEDEP concerned with BOM and MRM in detail, the process of BOM based MRM was integrated into the FEDEP. The framework can formalize the representations for MRMs and normalize the activities and process for MRM. This facilitates the reuse, interoperability and composability for MRMs and consistencies among them, which asserts the effectiveness for MRM.

     

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    • References(16)
  • [1]
    Natrajan A.Consistency maintenance in concurrent representations[D].School of Engineering and Applied Science of University of Virginia,2000
    [2]
    Klír J.Variable resolution modeling in interactive simulation[R].DCSE/TR-2004-07,2004
    [3]
    刘宝宏.多分辨率建模的理论与关键技术研究[D].长沙:国防科学技术大学机电工程与自动化学院,2003 Liu Baohong.Research on theory of and key techniques for multi-resolution modeling[D].Changsha:School of Mechatronics Engineering and Automation,University of National Defense Science and Technology,2003 (in Chinese)
    [4]
    Straβburger S,Schulze T,Fujimoto R.Future trends in distributed simulation and distributed virtual environments:results of a peer study //Mason S J,Hill R R,Mnch L,et al.Proceedings of the 2008 Winter Simulation.Austin,TX,USA:Association for Computing Machinery(ACM),2008:777-785
    [5]
    Seiger T,Holm G,Bergsten U.Aggregation/disaggregation modeling in HLA-based multi-resolution simulations //Proceedings of 2000 Fall Simulation Interoperability Workshop.Orlando,Florida,USA:Simulation Interoperability Standards Organization (SISO),2000:00F-SIW-037
    [6]
    Li Yuan,Li Bohu,Chai Xudong,et al.Multi-resolution modeling based on BOMs //Asia Simulation Conference 2009.Ritsumeikan University,Shiga,Japan:,2009
    [7]
    李元,李伯虎,李京,等.一种基于扩展BOM的多分辨率建模方法 //第三界中国导航、制导与控制学术会议.北京:科学出版社,2009 Li Yuan,Li Bohu,Li Jing,et al.An approach to multi-resolution modeling based on extended BOM //Proceeding of the 3rd Chinese Guidance,Navigation and Control Conference.Beijing:Science Press,2009 (in Chinese)
    [8]
    SISO-STD-003-2006 Base object model (BOM) template specification [S]
    [9]
    SISO-STD-003.1-2006 Guide for base object model (BOM) use and implementation [S]
    [10]
    IEEE Std 1516.3-2003 IEEE recommended practice for high level architecture (HLA) federation development and execution process (FEDEP) [S]
    [11]
    IEEE Std 1516.2-2000 IEEE standard for modeling and simulation (M&S) high level architecture (HLA)—object model template (OMT) specification [S]
    [12]
    Gustavson P L,Zimmerman P,Turrell C.Capturing intent-of-use meta-data for the conceptual model—a key to component reuse //Proceedings of the Fall 2003 Simulation Interoperability Workshop.Orlando,Florida,USA:Simulation Interoperability Standards Organization (SISO),2003:03F-SIW-080
    [13]
    Davis P K,Tolk A.Observations on new developments in composability and multi-resolution modeling //Henderson S G,Biller B,Hsieh M H,et al.Proceedings of the 2007 Winter Simulation Conference.Washington,DC,USA:Association for Computing Machinery (ACM),2007:859-870
    [14]
    Gustavson P.Building and using base object models (BOMs) for modeling and simulation(M&S) focused joint training //Interservice/Industry Training,Simulation,and Education Conference(I/ITSEC).Orlando,Florida,USA :National Training Systems Association(NSTA),2005:Paper No.2302
    [15]
    Gustavson P,Chase T.The application of base object models (BOMs) for supporting aggregation and load-balancing // Proceedings of the 2004 Fall Simulation Interoperability Workshop.Orlando,Florida:USA:Simulation Interoperability Standards Organization (SISO),2004:04F-SIW-024
    [16]
    Liu Baohong,Qiu Xiaogang,Huang Kedi.The problem of multi-resolution modeling (MRM) in the federation development and execution process [J].Journal of System Simulation,2003,15(12):1715-1731
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