• Title/Summary/Keyword: L-V-C 통합 환경

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A Method of Interoperating Heterogeneous Simulation Middleware for L-V-C Combined Environment (L-V-C 통합 환경 실현을 위한 이기종 시뮬레이션 미들웨어 연동 방안)

  • Cho, Kunryun;No, Giseop;Jung, Sihyun;Keerativoranan, Nopphon;Kim, Chongkwon
    • Journal of KIISE
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    • v.42 no.2
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    • pp.213-219
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    • 2015
  • Simulation is used these days to verify the hypothesis or the new technology. In particular, National Defense Modeling & Simulation (M&S) is used to predict wartime situation and conduct the military training. National Defense M&S can be divided into three parts, live simulation, virtual simulation, and constructive simulation. Live simulation is based on the real environment, which allows more realistic sumulation; however, it has decreased budget efficiency, but reduced depictions of reality. In contrast, virtual and constructive simulations which are based on the virtual environment, have increased budget efficiency, but reduced depictions of reality. Thus, if the three parts of the M&S are combined to make the L-V-C combined environment, the disadvantages of each simulation can be complemented to increases the quality of the simulation. In this paper, a method of interworking heterogeneous simulation middeware for L-V-C combined environment is proposed, and the test results of interworking between Data Distribution Service (DDS) and High Level Architecture (HLA) are shown.

The Design and implementation of LVC Integrated Architecture Technology building division-level L-V-C Interoperability Training System (사단급 L-V-C연동훈련체계 구축을 위한 LVC통합아키텍쳐기술 설계 및 구현)

  • Won, Kyoungchan;Koo, JaHwan;Lee, Hojun;Kim, Yong-Pil
    • Journal of the Korea Academia-Industrial cooperation Society
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    • v.22 no.5
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    • pp.334-342
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    • 2021
  • In Korea, the training is performed through independent environments without interoperability among L-V-C systems. In the L system, training for large units is limited due to civil complaints at the training grounds and road restrictions. The V system is insufficient in training related to tactical training, and the C system lacks practicality due to a lack of combat friction elements. To achieve synchronicity and integration training between upper and lower units, it is necessary to establish a system to ensure integrated training for each unit by interoperating the currently operating L, V, and C systems. The interoperability between the C-C system supports Korea-US Combined Exercise. On the other hand, the actual development of the training system through the interoperability of L, V, and C has not been made. Although efforts are being made to establish the L, V, and C system centering on the Army, the joint composite battlefield and LVC integrated architecture technology are not yet secured. Therefore, this paper proposes a new plan for the future training system by designing and implementing the LVC integrated architecture technology, which is the core technology that can build the L-V-C interoperability training system. In conclusion, a division-level L-V-C interoperability training system can be established in the future by securing the LVC integrated architecture technology.