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실사격 시험 프로세스의 안전성 강화를 위한 MBSE 기반 아키텍처 연구

원문정보

Model-Based Architecture Design of the Range Safety Process for Live Fire Test with Enhanced Safety

예성혁, 이재천

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초록

영어

In weapon systems development, live fire tests have been frequently adopted to evaluate the performance of the systems under development. Therefore, it is necessary to ensure safety in the test ranges where the live fire tests can cause serious hazards. During the tests, a special care must be taken to protect the test and evaluation (T&E) personnel and also test assets from potential danger and hazards. Thus, the development and management of the range safety process is quite important in the tests of guided missiles and artillery considering the explosive power of the destruction. Note also that with a newly evolving era of weapon systems such as laser, EMP and non-lethal weapons, the test procedure for such systems is very complex. Therefore, keeping the safety level in the test ranges is getting more difficult due to the increased unpredictability for unknown hazards. The objective of this paper is to study on how to enhance the safety in the test ranges. To do so, an approach is proposed based on model-based systems engineering (MBSE). Specifically, a functional architecture is derived utilizing the MBSE method for the design of the range safety process under the condition that the derived architecture must satisfy both the complex test situation and the safety requirements. The architecture developed in the paper has also been investigated by simulation using a computer-aided systems engineering tool. The systematic application of this study in weapon live tests is expected to reduce unexpected hazards and test design time. Our approach is intended to be a trial to get closer to the recent theme in T&E community, “Testing at the speed of stakeholder’s need and rapid requirement for rapid acquisition.”

목차

Abstract
 1. 서론
 2. 문제 정의
  2.1 무기체계 연구 및 시험평가 환경 변화
  2.2 선행연구 분석
  2.3 안전 공학과 시스템 공학 연구
  2.4 연구 목표
 3. 안전도를 강화한 실사격 프로세스의 도출
  3.1 실사격 시험 안전 활동 분석
  3.2 안전도를 강화한 실사격 프로세스
 4. 전산도구를 이용한 안전성 강화 실사격 프로세스 구현
  4.1 전산도구를 이용한 안전성 강화 실사격 모델링 및 프로세스 구현
  4.2 실사격 시험 프로세스 검증을 위한 컴퓨터 시뮬레이션 수행
 5. 결론
 6. References

저자정보

  • 예성혁 Sung Hyuck Ye. 국방과학연구소 종합시험본부
  • 이재천 Jae-Chon Lee. 아주대학교 시스템공학과

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