곡사화기 해상 피해효과 분석을 위한 임무급 모델의 모의 기능 개발

김정훈¹^{, *} ; 김희수² ; 권영휘³ ; 손기정⁴ ; 이두형⁵ ; 조은영⁶

1해병대사령부 4급 군무원
2해병대사령부 중령
3해병대사령부 소령
4해병대사령부 대령
5㈜심네트2 책임연구원
6㈜휴먼C&C 책임연구원

A Simulation Function Development of the Mission Level Model to Analyze an Maritime Damage Effectiveness of the Howitzer

JeongHoon Kim¹^{, *} ; HuiSu Kim² ; YeongHwi Kwon³ ; GiJeong Son⁴ ; DuHyeong Lee⁵ ; EunYeong Cho⁶

14th grade military official, ROK Marine Corps HQ
2LTC, ROK Marine Corps HQ
3MAJ, ROK Marine Corps HQ
4COL, ROK Marine Corps HQ
5Senior researcher, Simnet Co., Ltd.
6Senior researcher, Human C&C Co., Ltd.

Correspondence to: ^*JeongHoon Kim ROK Marine Corps HQ 601-10 P.O.Box , 1311, Sicheong-ro, Bongdam-eup, Hwaseong-si, Gyeonggi-do, 18334, Republic of Korea Tel: +82-31-8012-2760 E-mail: jkim0220022@naver.com

초록

임무급 모델은 추상화 수준에 의해 부대 단위로 모의된다. 그러나 화력계획 효과분석 시 상세한 분석이 제한되며, 특히 해병대 작전계획 분석모델(MOPAM)에서 해상 곡사화기 사격시 단발 낙탄 분포에 따른 효과분석이 불가능하다. 이에 따라 임무급 모델에서도 곡사화기 단발 사격을 모의할 수 있는 기능 개발이 요구되었다. 이에 본 연구는 국방M&S체계인 MOPAM의 단발 사격 기능개발에 대하여 기술하였으며 단발살상반경과 확률 이론을 적용하였다. 개발한 기능으로 해상 곡사화기 사격방법에 따른 효과를 분석한 사례 연구를 제시하고, 이를 통한 활용 방안을 간략히 제안하였다.

Abstract

The mission-level model for analysis has been simulated by the ground troop level. However, an effectiveness analysis on the artillery fire plan cannot be performed in detail. In particular, in the marine operation plan analysis model(MOPAM), it is impossible to analyze the single shot effect of the maritime artillery fire. Thus, the single shot function had been needed in the mission-level model. Therefore, this study describes the development of the single shot function of the model. This function is simulated by applying the lethal radius of the single shot and the probability theory. We present a case study that analyzed the effect of the maritime artillery fire with the developed function, and briefly propose utilization plans from the case study.

Keywords:

M&S, Maritime Damage Effectiveness, Error Probability, Probability Distribution, Mission Level Model

키워드:

모델링 시뮬레이션, 해상 피해 효과, 공산오차, 확률분포, 임무급 모델

Acknowledgments

이 논문은 2022년도 한국해군과학기술학회 동계학술대회 발표 논문임.

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