Browse > Article
http://dx.doi.org/10.3744/SNAK.2019.56.5.457

A Study on the Efficient Generation of Damage Control Onboard Training Scenarios for Naval Ships  

Jung, Jae-Soo (Department of Naval Architecture and Ocean Engineering, Chung-nam National University)
Lee, Hyun Yup (Department of Naval Architecture and Ocean Engineering, Chung-nam National University)
Chung, Jung-Hoon (Korea Institute of Machinery and Materials)
Kim, Tae-Jin (KTE CO. LTD.)
Kim, Sook-Kyoung (Defense Industry Technology Center)
Publication Information
Journal of the Society of Naval Architects of Korea / v.56, no.5, 2019 , pp. 457-463 More about this Journal
Abstract
Damage control is a very important preliminary and primary activity to improve the survivability of naval ships by preventing spread of damage, and various types of onboard damage control training are conducted regularly on naval ships. The scenarios for these trainings should be well organized to improve the training efficiency. However, at present, it takes much time and effort to generate the training scenarios and there is a problem that the procedures and contents of the scenarios vary widely depending on the persons who generate, without the established methods and standards. In this paper, an efficient generation method of damage control onboard training scenarios has been established, especially for flood and fire o n naval ships. Also a computer program has been developed based on the established method. The results showed that this method and computer program reduce the time and effort to generate these scenarios, and it is hoped that the method be used as a ROK Navy Standard.
Keywords
Damage control; Damage control onboard training scenario; Damage scenario; Damage control scenario; Standard damage control diagram; Standard damage control detailed scenario;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
1 Choi, W.J., 2015. ROK navy action plan for improving damage control system. Naval Ship Technology Systems Seminar, Daejeon, Republic of Korea, 20-21 October 2015.
2 Ellaschuk, B. & Lienert, B., 2007. Critical assessment of damage/fire control systems and technologies for naval vessels in support of damage control and crew optimization: risk and opportunities, (Phase IIa: Fire suppression systems and components), DRDC Atlantic CR 2007-175.
3 NSTM(Naval ship technical manual) chapter 079 volume 2, 2008. Practical damage control.
4 NTTP(Naval tactics and technology publication) 3-20.31, 2012. Surface ship survivability.
5 Park, D.K., Shin, Y.H., Chung, J.H. & Jung, E.S., 2016. Development of damage control training scenarios of naval ships based on simplified vulnerability analysis results, Architecture and Ocean Engineering, 8(4), pp.386-397.
6 ROK navy, 2017. Damage control (Detailed operation doctrine 3-17-207).
7 Ryu, H,Y., Lim, E.S., Choi, W.J. & Cho, T.M., 2015. Development of damage response training scenarios for naval ships based on fire simulation. Naval Ship Technology & Weapon Systems Seminar, Busan, Republic of Korea, 21-22 October 2016.
8 Shin, Y.H., Kwon, J.I. & Chung, J.H, 2013. Development of simplified vulnerability analysis program for naval vessel. Journal of the Society of Naval Architects of Korea, 50(6), pp.390-396.   DOI
9 Torenvliet, G. & Jamieson, G., 2007. Functional modelling, scenario development, and options analysis to support optimized crewing for damage control (Phase 2 : Scenario development), CMC Document number 1000-1370-2.