Debris Dispersion and Falling Prediction Modeling Using AUTODYN to Determine Interception Test Evaluation for Safety Zone |
Bohyun Kang, Sangho Kim, Kisoon Park, Bongcheul Chung, Seokwoo Lee |
1Department of Aerospace Engineering, Konkuk University 2Department of Smart Vehicle Engineering, Konkuk University 3Department of Defense Acquisition, Konkuk University 4Aerospace Design Airworthiness Institute, Konkuk University 5L-SAM Anti-Air/Missile Defense Systems PMD Team 1, LIG Nex1 |
요격시험평가 안전구역 설정을 위한 AUTODYN을 이용한 파편분산 및 낙하 예측 모델링 |
강보현, 김상호, 박기순, 정봉철, 이석우 |
1건국대학교 항공우주정보시스템공학과 2건국대학교 스마트운행체공학과 3건국대학교 방위사업학과 4건국대학교 항공우주설계인증연구소 5LIG넥스원(주) L-SAM체계단 1팀 |
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Abstract |
Recently, with the development of long-range / high-altitude guided weapon system for defense against ballistic missile, test range and firing altitude for guided weapons are increasing. Due to the increase in the test range and the intercepting altitude, it is expected to increase the range of safety area required for the firing test. Comparing to the foreign countries which have many desert or non-residence, in the domestic circumstances where the population is concentrated and distributed, it is more important to predict the falling area and to set the safety area for safely carry out the long-range / high-altitude intercept test. In this paper, we consider the following three points. The first is the booster fall trajectory modeling, the second is the shroud fall trajectory modeling, and finally, the debris dispersion modeling for the missile intercept. Especially, the AUTODYN model was used to predict debris falling area which produced in the high-speed guided missile intercepting test. |
Key Words:
AUTODYN, Test and Evaluation, Debris Dispersion, Guided Missile Interception |
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