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ScienceONSince the technology of anti-ship missiles has advanced rapidly, defending battleships from the threat of anti-ship missiles is a crucial factor for the survival of warships. In this paper, we analyze the performance of an anti-ship missile defense sy...
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RISS 인기검색어
흡수 마코프체인을 활용한 함정 근접무기체계 효과성 분석 = An Analysis on the Performance of the Close-In-Weapon-System Using Absorbing Markov Chains
한글로보기https://www.riss.kr/link?id=A101493700
-
저자
김성우 (국방대학교 관리대학원) ; 윤봉규 (국방대학교 관리대학원) ; Kim, Seong-Woo ; Yoon, Bong-Kyoo
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2014
-
작성언어
Korean
- 주제어
-
등재정보
KCI등재
-
자료형태
학술저널
-
수록면
733-743(11쪽)
-
KCI 피인용횟수
1
- DOI식별코드
- 제공처
-
0
상세조회 -
0
다운로드
부가정보
다국어 초록 (Multilingual Abstract)
Since the technology of anti-ship missiles has advanced rapidly, defending battleships from the threat of anti-ship missiles is a crucial factor for the survival of warships. In this paper, we analyze the performance of an anti-ship missile defense system whose name is Close-In-Weapon-System. We show the survival probability of a warship equipped with the Close-In-Weapon-System as the number of anti-ship missiles attacking the warship varies. Because of the complex and dynamic operational characteristics surrounding the Close-In-Weapon-System such as speed of missiles, different range of an individual weapon in the weapon system, and the continuous change of the kill probability of the missiles corresponding to the distance of missiles from ships, few work has been done for the performance of Close-In-Weapon-System. We present a model to incorporate all the dynamic characteristics of the system using absorbing Markov Chain. With our results, we expect commanders of warships equipped with Close-In-Weapon-System to be provided with more helpful information on how to deal with the anti-ship missiles.
Since the technology of anti-ship missiles has advanced rapidly, defending battleships from the threat of anti-ship missiles is a crucial factor for the survival of warships. In this paper, we analyze the performance of an anti-ship missile defense system whose name is Close-In-Weapon-System. We show the survival probability of a warship equipped with the Close-In-Weapon-System as the number of anti-ship missiles attacking the warship varies. Because of the complex and dynamic operational characteristics surrounding the Close-In-Weapon-System such as speed of missiles, different range of an individual weapon in the weapon system, and the continuous change of the kill probability of the missiles corresponding to the distance of missiles from ships, few work has been done for the performance of Close-In-Weapon-System. We present a model to incorporate all the dynamic characteristics of the system using absorbing Markov Chain. With our results, we expect commanders of warships equipped with Close-In-Weapon-System to be provided with more helpful information on how to deal with the anti-ship missiles.
참고문헌 (Reference)
1 손영수, "항공기 운용 특성을 고려한 적정 운용 대수 산정 기준 연구" 한국군사과학기술학회 17 (17): 051-057, 2014
2 Ball, R. E., "The Fundamentals of Aircraft Combat Survivability Analysis and Design" American Institute of Aeronautics Astronautics, Inc. 1985
3 H. R. Kim, "Survivability Evaluation Model for Network Information Services on Mobile Internet" Dae Jeon University 2007
4 Arnold. R. J., "Survivability Design of Forward Air Combat and Light Attack Aircraft" Society of Automotive Engineers, Inc. 1-11, 1969
5 B. K. Yoon, "Markovian Arrival Process and its Application in Defense Area, Research for National Security Affairs" 2010
6 "MIL-STD-721B : Definition of Effectiveness Terms for Reliability, Maintainability, Human Actors, and Safety" 11 : 429-433, 1972
7 Ball. R. E., "Establishing the Fundamentals of a Surface Ship Survivability Design Discipline" 1 : 71-74, 1994
8 윤봉규, "Capacity Pooling을 활용한 육군항공 통신장비의 적정예비품수 결정에 관한 연구" 한국로지스틱스학회 16 (16): 97-113, 2008
9 Y. Kim., "Analysis on the Determination of Machine Repair Problem Maintenance Floats with Divided Repair Time Through Absorbing Markov Chain" 34 (34): 1-16, 1998
10 Lillis and Calvano, "Analysis of the Applicability of Aircraft Vulnerability Assessment and Reduction Techiques to Small Surface Craft" Naval Postgraduate School 2012
1 손영수, "항공기 운용 특성을 고려한 적정 운용 대수 산정 기준 연구" 한국군사과학기술학회 17 (17): 051-057, 2014
2 Ball, R. E., "The Fundamentals of Aircraft Combat Survivability Analysis and Design" American Institute of Aeronautics Astronautics, Inc. 1985
3 H. R. Kim, "Survivability Evaluation Model for Network Information Services on Mobile Internet" Dae Jeon University 2007
4 Arnold. R. J., "Survivability Design of Forward Air Combat and Light Attack Aircraft" Society of Automotive Engineers, Inc. 1-11, 1969
5 B. K. Yoon, "Markovian Arrival Process and its Application in Defense Area, Research for National Security Affairs" 2010
6 "MIL-STD-721B : Definition of Effectiveness Terms for Reliability, Maintainability, Human Actors, and Safety" 11 : 429-433, 1972
7 Ball. R. E., "Establishing the Fundamentals of a Surface Ship Survivability Design Discipline" 1 : 71-74, 1994
8 윤봉규, "Capacity Pooling을 활용한 육군항공 통신장비의 적정예비품수 결정에 관한 연구" 한국로지스틱스학회 16 (16): 97-113, 2008
9 Y. Kim., "Analysis on the Determination of Machine Repair Problem Maintenance Floats with Divided Repair Time Through Absorbing Markov Chain" 34 (34): 1-16, 1998
10 Lillis and Calvano, "Analysis of the Applicability of Aircraft Vulnerability Assessment and Reduction Techiques to Small Surface Craft" Naval Postgraduate School 2012
11 Graham, D., "An Engineering Approach to Aircraft Survivability Enhancement Analysis" 2 : 35-45, 1976
12 Atkinson, D. D., "Aircraft Survivability" (53) : 1983
13 I. D. Kim., "Aircraft Combat Survivability Analysis Model for the Air-to-Ground Mission" 1998 (1998): 924-931, 1998
14 B. R. Kim, "A methodology Study of Rotorcraft’s Survivability Analysis" Kyung Sang University 2008
15 K. S. Kim, "A Study on the Procedure to Assess the Vulnerability of Warship" In Hwa University 2011
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