[국내논문]함정 대공방어시스템의 효과도를 활용한 피격성 추정 가능성 연구 A Feasibility Study on the Estimation of a Ship's Susceptibility Based on the Effectiveness of its Anti-Air Defense Systems원문보기
Recently, the increased use of anti-ship guided missiles, a weapon system that detects and attacks targets in naval engagement, has come to pose a major threat to the survivability of ships. In order to improve the survivability of ships in response to such anti-ship guided missiles, many studies of...
Recently, the increased use of anti-ship guided missiles, a weapon system that detects and attacks targets in naval engagement, has come to pose a major threat to the survivability of ships. In order to improve the survivability of ships in response to such anti-ship guided missiles, many studies of means to counteract them have been conducted in militarily advanced countries. The integrated survivability of a ship can be largely divided into susceptibility, vulnerability, and recoverability, and is expressed as the conditional probability, if the ship is hit, of damage and recovery. However, as research on susceptibility is a major military secret of each country, access to it is very limited and there are few publicly available data. Therefore, in this study, a possibility of estimating the susceptibility of ships using an anti-air defense system corresponding to anti-ship guided missiles was reviewed. To this, scenarios during engagement, weapon systems mounted to counter threats, and maximum detection/battle range according to the operational situation of the defense weapon system were defined. In addition, the effectiveness of the anti-air defense system and susceptibility was calculated based on the performance of the weapon system, the crew's ability to operate the weapon system, and the detection probability of the detection/defense system. To evaluate the susceptibility estimation feasibility, the sensitivity of the detailed variables was reviewed, and the usefulness of the established process was confirmed through sensitivity analysis.
Recently, the increased use of anti-ship guided missiles, a weapon system that detects and attacks targets in naval engagement, has come to pose a major threat to the survivability of ships. In order to improve the survivability of ships in response to such anti-ship guided missiles, many studies of means to counteract them have been conducted in militarily advanced countries. The integrated survivability of a ship can be largely divided into susceptibility, vulnerability, and recoverability, and is expressed as the conditional probability, if the ship is hit, of damage and recovery. However, as research on susceptibility is a major military secret of each country, access to it is very limited and there are few publicly available data. Therefore, in this study, a possibility of estimating the susceptibility of ships using an anti-air defense system corresponding to anti-ship guided missiles was reviewed. To this, scenarios during engagement, weapon systems mounted to counter threats, and maximum detection/battle range according to the operational situation of the defense weapon system were defined. In addition, the effectiveness of the anti-air defense system and susceptibility was calculated based on the performance of the weapon system, the crew's ability to operate the weapon system, and the detection probability of the detection/defense system. To evaluate the susceptibility estimation feasibility, the sensitivity of the detailed variables was reviewed, and the usefulness of the established process was confirmed through sensitivity analysis.
Brett, J., Gamble, G., Reid, W. and Smith, S. 2017.?Integrated survivability analysis of naval platforms in?high threat environments. Defence Science and?Technology Group, Australia.
Gang, D.G., 1994. Layered air defense weapon system?at sea, Defense and Technology. Korea Defense?Industry Association, 2(180), pp.50-65.
Ha, S.C., 2022. Study on weapon system operation?reliability assessment using development reliability?goals. Journal of the Korea Academia-Industrial?Cooperation Society, 23(5), pp.225-231.
Hong, W.Y., Jeong, S.M., Lee, S.E. and Oh, W.C. 2011.?Navy weapon system engineering, Sejongbooks.
Jeong, J.H., Lee, H.Y., Yu, J.M., Cho, D.S., Park, S.I.,?Im, G.H. and Park, J.G. 2006. The necessity of?developing ship survivability design technology and the?direction of development of related domestic?technology. Bulletin of the Society of Naval Architects?of Korea, 43(150), pp.1225-1178.
Johns, Richard O. 1996. AAW effectiveness of the DD-963?spruance class destroyer: an analytic approach,?Monterey, California, Naval Postgraduate School.
Kang, H.J., Shin, J.G., Lee, D.K. and Choi, J. 2009.?A study on deception ship for ship susceptibility?improvement based on system engineering approach.?Journal of the Society of Naval Architects of Korea,?46(3), pp.313-324.
Kim, J.I., Jung, Y.R., Kim, H.S., Kim, C.H. and Yu, C.W. 2010. A study on the defense effectiveness of surface?ships against diverse anti-surface missile attack?strategies. Journal of the Korea Society of Systems?Engineering, 1(6), pp.33-39.
Kim, K.S. and Lee, J.H. 2014. Integrated survivability?assessment given multiple penetration hits. Journal of?Ocean Engineering and Technology, 28(1), pp.69-76.
Kim, D.H., Yun, J.S. and Ryoo, C.K. 2011. Defense?strategy against multiple anti-ship missiles using?anti-air missiles, Journal of Astronomy and Space?Science, 39(4), pp.354-361
Seo, M.S. and Ma, J.M. 2020. A study on intercept?probability and cost based multi-layer defense?interceptor operating method using mathematical?model. Journal of the Korea Society for Simulation,?29(6), pp.49-61.
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