Journal of the Korea Institute of Military Science and Technology (한국군사과학기술학회지)

The Korea Institute of Military Science and Technology (한국군사과학기술학회)
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Design of a HLA/RTI-based Federation Architecture Between OneSAF and NBC Contamination Prediction Models

OneSAF와 화생방 오염예측모델 간 HLA/RTI 기반 연동 구조 설계

  • Han, Sang Woo (The 5th Research and Development Institute, Agency for Defense Development) ;
  • Pyun, Jai Jeong (The 5th Research and Development Institute, Agency for Defense Development) ;
  • Shim, Woo Sup (The 5th Research and Development Institute, Agency for Defense Development) ;
  • Chung, Hoe Young (The 5th Research and Development Institute, Agency for Defense Development)
  • 한상우 (국방과학연구소 제5기술연구본부) ;
  • 변재정 (국방과학연구소 제5기술연구본부) ;
  • 심우섭 (국방과학연구소 제5기술연구본부) ;
  • 정호영 (국방과학연구소 제5기술연구본부)
  • Received : 2015.04.02
  • Accepted : 2015.09.25
  • Published : 2015.10.05
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Abstract

For military training and course-of-action analysis, OneSAF Int'l version being used in ROK Army has a limited capability to simulate NBC(nuclear, biological, and chemical) damages. For high-fidelity NBC combat simulation, it is required to visualize NBC contamination dispersion in consideration of weather conditions and terrain characteristics. However, OneSAF itself handling interaction among thousands of combat entities cannot carry out a simulation of NBC contamination dispersion because it brings about an excess burden. To resolve this problem, this research aims to design simulation federation for analysis on NBC operational effects. After examining design consideration to connect OneSAF and a NBC contamination dispersion model, we design a federation architecture that facilitates the interaction between OneSAF and a NBC contamination dispersion model. Afterwards, we implement a federation interface to share simulation data by publish-subscribe pattern and to translate them into the proprietary format for each model. We prove the possibility of federation between both models, as showing that dispersion of NBC contaminated cloud and changes in concentration are reflected in OneSAF-based engagement simulation.

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References

  1. "2010 Defense White Paper," ROK Ministry of National Defense, 2010.
  2. "ChangJo-21 as a Next-Generation Korean War-Game Model," Defense Technology, Vol. 248, p. 10, 1999. (in Korean)
  3. S. D. Kwak, and E. L. Berger, "JOEF(Joint Operational Effects Federation) Architecture," Technical Paper, The Mitre Corp., Bedford, MA, USA, 2003.
  4. S. K. Choi, and H. W. Lee, "A Study on CBRN Integrated Battle Management System(Similar SW Systems in USA)," Proc. of Conference of the Korea Society for Simulation 2013, pp. 1225-1226, 2013. (in Korean)
  5. Y. K. Kim, S. G. Ryu, S. K, Choi, S. B. Son, and M. J. Choi, "Introduction of NBC_RAMS," Proc. of Ground Weapon Conference 2007, pp. 1-4, 2007. (in Korean)
  6. M. K. Park, S. G. Ryu, "Evaluation of MOE(Measure of Effectiveness) for NBC_RAMS," Proc. of Conference of the Korea Institute of Military Science and Technology 2010, pp. 1047-1050, 2010. (in Korean)
  7. S. W. Han, J. J. Pyun, and W. S. Shim, "Federating between Engineering-Level and Engagement-Level Models for Effectiveness Analysis of NBC Protection Systems," Proc. of Conference of the Korea Institute of Military Science and Technology 2014, pp. 327-328, 2014. (in Korean)
  8. S. W. Han, J. J. Pyun, and W. S. Shim, "Implementing an Interface between a NBC Hazard Prediction Model and a Combat Simulation Model," Proc. of the 22nd Ground Weapon Conference, p. 118, 2014.
  9. R. Wittman and C. Harrison, "OneSAF: A Product Line Approach to Simulation Development," The MITRE Corporation, USA, 2001.
  10. M. A. Fields and T. Haug, "Developing a Chemical Reconnaissance Behavior for Unmanned Ground Vehicles Using the OneSAF Battlefield Simulation Tool," Technical Report, Army Research Laboratory, 2003.
  11. Moses et al., "Using CT-Analyst as an Integrated Tool for CBR Analysis," Proc. of SPIE Defense and Security Symposium 2006, pp. 1-11, 2006.
  12. G. Patnaik, J. Boris, K. Obenschain, R. Rosenberg, and W. Anderson, "Progress in Applied HPC to Support Operational Use of CT-Analyst," Proc. of HPCMP(High Performance Computing Modernized Program) Users Group Conference 2008, pp. 498-502, 2008.
  13. K. Obenschain and A. Moses, "HPC Enhancement of Plume Modeling for Use by Military Simulators," Proc. of HPCMP Users Group Conference 2007, pp. 1-4, 2007.
  14. "Nuclear, Biological, Chemical(NBC) Contamination," OneSAF Physical Knowledge Acquisition Document, U.S. AMSAA, 2004.
  15. J. Morrow-Jones, "Nuclear Effects Threat Simulator (NETS) and Directed Energy Threat Environment Simulator(DETES)," Proc. of OneSAF Users Conference, 2008.
  16. M. Seok, H. Kim, and T. G. Kim, "Effectiveness Analysis of Chemical Warfare System Through Interoperation between Engineering Level and Engagement Level Models: Methodology and Environment," Journal of the Korea Institute of Military Science and Technology, Vol. 17, No. 1, pp. 71-81, 2014. (in Korean) https://doi.org/10.9766/KIMST.2014.17.1.071
  17. "IEEE Standard for Modeling and Simulation(M&S) High Level Architecture(HLA) - Framework and Rules," IEEE Std. 1516-2000, pp. i-22, Sep. 2000.
  18. "IEEE Standard for Modeling and Simulation(M&S) High Level Architecture(HLA) - Federate Interface Specification," IEEE Std. 1516.1-2000, pp. i-467, 2001.
  19. K. Hormann and A. Agathos, "The Point in Polygon Problem for Arbitrary Polygons," Computational Geometry, Vol. 20, No. 3, pp. 131-144, 2001. https://doi.org/10.1016/S0925-7721(01)00012-8
  20. "Chemical, Biological, Radiological, and Nuclear Vulnerability," OneSAF Physical Knowledge Acquisition Document, U.S. AMSAA, 2009.
  21. U. Jinnestrand, "Development of a Persistent Partner Simulation Network Capability," Swedish Armed Forces Joint Staff.