A Methodology for the Ship System Integration with Open Architecture : Focusing on the Total Ship Computing Environment based Architecture Building and Validation |
Park, Gang-Soo
(Department of Industrial Engineering, Hannam University)
Yoo, Byeong-Chun (Department of Industrial Engineering, Hannam University) Kim, Kyeongtaek (Department of Industrial Engineering, Hannam University) Choi, Bong-Wan (Department of Industrial Engineering, Hannam University) |
1 | Hwang, I.-H., Direction of ship shape development for reduced operation personnel, Journal of the, Defense Science and Technology Information, 2015, Vol. 50, pp. 6-24. |
2 | Hwang, K.-Y., A study on SE-based design methodology for next-generation naval combat system architecture, Hanam University, 2017. |
3 | Jung, S.-H., Ji, H.-G., Choi, S.-U., Jung, N.-S., and Im, J.-K., Direction of development for ship system integration, Bulletine of the Society of Naval Architects of Korea, 2020, Vol. 57, No. 1, pp. 15-20. DOI |
4 | Jung, Y.-T., Jeong, B.-J., Choi, B.-W., and Yim, D.-S., A methodology for analyzing effects of the cooperative engagement capability system applied to naval operations, Journal of Society of Korea Industrial and Systems Engineering, 2019, Vol. 42, No. 1, pp. 95-105. |
5 | Kevin, S., DDG-1000 Overview : Mission system technologies, ASNE Day 2014, 2014, pp. 8-9. |
6 | Kim, J.-S., An, J.-S., Kim, Y.-J., and Lee, S.-U., Development trend of Architecture and Technology for Nextgeneration US Naval Combat System (I), Defense Science and Technology, 2014, Vol. 210, pp. 1-9. |
7 | Kim, J.-S., An, J.-S., Kim, Y.-J., and Lee, S.-U., Development trend of Architecture and Technology for Nextgeneration US Naval Combat System(II), Defense Science and Technology, 2015, Vol. 211, pp. 1-9. |
8 | Kim, Y.-J., Oh, H.-S., and Choi, B.-W., A study of reliability analysis and application on naval combat system using field critical failure data, Journal of Society of Korea Industrial and Systems Engineering, 2016, Vol. 39, No. 4, pp. 49-59. DOI |
9 | Mark, H., Michael, L., and Jeffery, T., DDG-1000 Engineering Control System(ECS), ASNE Intelligent Ship VIII Symposium, 2009. |
10 | Lee, S.-U., Kim, Y.-J., and Ha, T.-Y., Development trend and domestic development of TSCE, Defense and Technology, 2015, Vol. 434, pp. 62-77. |
11 | National interest.org., Why the US Navy's Littoral Ship punch below, 2018. |
12 | Navy Education and Training Command, Combat System A to Z, 2016. |
13 | Navy Headquarters, A Study on TSCE-based Methodology for Ship System Integration, 2019. |
14 | Navy Headquarters, Regulation For Naval Ship System Integration, 2019. |
15 | NPS LCS Teaml, Systems Engineering Capstone report, Littoral Combat Ship Open Ocean Anti-Submarine Warfare, 2014. |
16 | Oh, S.-W., An integrated architecture for control and monitoring system on naval surface combatants, Journal of the KIMST, 2018, Vol. 21, No. 1, pp. 103-114. |
17 | Park, G.-S., Park, H.-J., and Choi, B.-W., Study on the ship system integration in the basis of total ship computing environment, Naval Ship Technology and Weapon Systems Seminar Proceeding, 2019. |
18 | Hur, J.-H., Moon, J.-I., Choi, B.-W., Oh, H.-S., and Yim, D.-S., A Study for effective methodology of the search pattern of AUV, Journal of KIMST, 2014, Vol. 17, No. 6, pp. 751-763. |
19 | Brian, S., LCS program update, NAVSEA Cybersecurity Industry Day, 2015. |
20 | Dick, C., Integration of Software Safety into the System Engineering Process-DDG 1000, A Case Study, 2015. |