• Title/Summary/Keyword: METT+T

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Minimum-Cost Path Finding Algorithm in Real-Time For Computer Generated Force (실시간성을 고려한 가상군 최소비용 길 찾기 알고리즘)

  • Han, Chang-Hee;Min, Young-Hye;Park, Sang-Hyuk;Kim, Jai-Hoon
    • Journal of the Institute of Electronics Engineers of Korea CI
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    • v.48 no.1
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    • pp.17-25
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    • 2011
  • At the computer games, we can experience a variety of environments using a virtual object. It is similar to that be trained in War-game simulator of the defense. Actual soldiers and a computer-generated virtual group(Computer Generated Force: CGF) in 3-D virtual battlefield environment are training. However, path finding algorithm, one of the techniques of simulation models, to the current level only considers the shortest time path. So, this current level at the special situation of the army in the battlefield for selecting the optimal path is limited. The focus of this paper is to select the least-cost path using the deadline with several different mission conditions(METT+TC). For the only shortest time path algorithm and the least-cost path algorithm using dealine,($d_t$, one of METT+TC elements), Its usefulness is verifying the change of the move spent time(t) for all possible paths and the fighting power of the combat troops(Troops ability, a) through a comparison of the total cost of moves(c(t)). According to the results, when considering the deadline, the proposed algorithm saves about 62.5% of the maximum cost.

A Study on the Effective Command of Disaster Site: Lessons Learned from Sinking of the Sewol Ferry (효과적인 재난현장 지휘에 관한 연구: 세월호 사례의 교훈)

  • Kim, SungGeun;Hwang, K.T.
    • Journal of Digital Convergence
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    • v.12 no.11
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    • pp.1-12
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    • 2014
  • Today, scale of a disaster becomes huge, all the available resources should be mobilized to control the disaster situation, and situations of the disaster site is broadcasted by the various media on a real-time basis. Accordingly, The commander of the disaster site should manage the situation taking all the factors into consideration. Despite the importance of the factors affecting the command of disaster site, there are not much research on this topic. This study utilizes METT-TC(Mission, Enemy, Troops, Terrain and weather, Time available, and Civilian considerations) which is applied in a combat situation by the military area and proposes MORT-TEC(Mission, Object, Resources available, Terrain and weather, Time available, Exercise, and Civilian considerations) as factors affecting the effective command of disaster site. These factors are applied to the Sewol Ferry Incidents and policy implications which can help researchers and practitioners in the area are suggested.

A Study for Autonomous Intelligence of Computer-Generated Forces (가상군(Computer-Generated Forces)의 자율지능화 방안 연구)

  • Han, Chang-Hee;Cho, Jun-Ho;Lee, Sung-Ki
    • Journal of the Korea Society for Simulation
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    • v.20 no.1
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    • pp.69-77
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    • 2011
  • Modeling and Simulation(M&S) technology gets an attention from various parts such as industry and military. Especially, military uses the technology to cope with a different situation from the one in the Cold War and maximize the effect of training against the cost in the new environment. In order for the training based on M&S technology to be effective, the situations of a battlefield and a combat must be more realistically simulated. For this, a technique development on Computer-Generated Forces(CGF) which represents a unit's simulation logic and a human's simulated behaviors is focused. The CGF simulating a human's behaviors can be used in representing an enemy force, experimenting behaviors in a future war, and developing a new combat idea. This paper describes a methodology to accomplish Computer-Generated Forces' autonomous intelligence. It explains the process of applying a task behavior list based on the METT+T element onto CGFs. On the other hand, in the domain knowledge of military field manual, fuzzy facts such as "fast" and "sufficient" whose real values should be decided by domain experts can be easily found. In order to efficiently implement military simulation logics involved with such subjectivity, using a fuzzy inference methodology can be effective. In this study, a fuzzy inference methodology is also applied.

A Study on the Analysis Method of the Operations Effectiveness of the Joint Coastal Guard System Against Small Targets (소형표적에 대한 합동 해안경계시스템 작전효과 분석방법 연구)

  • Kim, Taeho;Han, Hyun Jin;Lee, Byeong-Ho;Shin, Young-Tae
    • KIPS Transactions on Computer and Communication Systems
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    • v.11 no.2
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    • pp.59-66
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    • 2022
  • The Joint Coastal Guard System is composed of a maritime surveillance system and a anti-coastal infiltration system, and is a system in which the Navy is mainly responsible for the maritime and the Army is responsible for the coast. We analyzed the operations effectiveness of the joint coastal guard system, in which various weapon systems of the army and navy are operated in a complex way, to the extent to which successful operation is possible against small targets. The operations effectiveness analysis was conducted by defining the operations effectiveness by operation type, configuring the simulation environment using METT-T elements, establishing the assumptions of the simulation scenario, conducting the simulation and analyzing the simulation results by weather condition. The simulation tools used were NORAM and EADSIM. As a result of the operations effectiveness analysis, the joint coastal guard system currently in operation showed a significant difference in operational success depending on the size of the target and weather conditions. This research can be used as useful data for establishing an effective joint coastal guard system and conducting systematic guard operations.