• 제목/요약/키워드: ISO/IEC/IEEE 15288

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ISO/IEC/IEEE 15288 기반 양산단계 무기체계 부품국산화 체계공학 개발관리 절차 적용 연구 (A Study on The Mass Production Weapon System Parts Localization System Engineering Development Management Process Application based on ISO/IEC/IEEE 15288)

  • 김장은;심보현;조유습;성인철;한동석
    • 품질경영학회지
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    • 제44권3호
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    • pp.541-552
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    • 2016
  • Purpose: In this study, we propose that how to approach a effective system engineering and optimize system engineering management process for the mass production weapon system parts localization development process and success in DTaQ. Methods: To approach a effective system engineering for the mass production weapon system parts localization, we analyze a weapon system acquisition process and system engineering process of Republic of Korea and DTaQ parts localization business regulations in advance. after results of analysis of them, we implement a optimized parts localization development system engineering based on ISO/IEC/IEEE 15288. Results: In order to apply International Standard ISO/IEC/IEEE 15288 to the mass production weapon system parts localization development process, we compare the mass production weapon system parts localization acquisition environment with ISO/IEC/IEEE 15288 and analyze them. therefore, It is possible to implement a part of concept stage and development stage of ISO/IEC/IEEE total life cycle stage for the mass production weapon system parts localization development process. To achieve the technical review milestones of DTaQ parts localization business regulations in the selected stages of ISO/IEC/IEEE, the development and management agency perform 2 high rank process and 19 low rank process specified in ISO/IEC/IEEE. Conclusion: When the development and management agency perform the mass production weapon system parts localization development using the proposed system engineering approach, they should easily meet milestone through the clarified requirement and simplified System Engineering output documents in limited development period.

시스템의 운용 현장 설치 전 요구되는 중간 보관 프로세스 연구 (철도차량 중심으로) (Intermediate Storage Process required before Operation Site Installation of System (Focusing on the Rolling Stock of Railway System))

  • 최요철
    • 시스템엔지니어링학술지
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    • 제16권2호
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    • pp.141-147
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    • 2020
  • Due to the nature of the long-term project of a Railway business, Many problems have been arisen in the process of delivering products or systems verified by suppliers to the customer's operation site. Unexpectedly, it is often necessary for the verified products to store intermediately at the supplier's site for a variety of reasons, such as delays in business and delays in civil engineering, at the time of sending them to the customer's operation site. In this study, the intermediate storage process for finding and solving problems related to intermediate storage was presented focusing on the Rolling Stock of Railway System by reference to ISO/IEC/IEEE 15288:2015. A suitable intermediate storage process based on the developed product or system's characteristics will allow the verified products or systems to be placed on the customer's operation site and to meet the customer's product or system requirements.

시스템 엔지니어링 공통 프로세스 개선 연구 : 기술 프로세스를 중심으로 (A Systems Engineering Process Refinement : Focused on Technical Process)

  • 이태경;이중윤
    • 시스템엔지니어링학술지
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    • 제13권1호
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    • pp.41-50
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    • 2017
  • Systems engineering is being applied to various fields of industry such as national defense, aerospace, transportation, railway, and information technology industries. But in Korea, systems engineering has been selectively applied to government-driven projects such as space rocket development projects and unmanned flight development projects. And systems engineering processes introduced from international systems engineering standards has been directly applied to those projects. Unfortunately, this application method is not recommended as it requires highly experienced systems engineers. From our previous paper, we have proposed that domain specific engineering standards should be developed to be used as references for development of organizational engineering guide, so that more successful engineering performances can be achieved. And in this paper we have proposed a refinement of systems engineering processes from international systems engineering standards as they are bases of domain specific engineering standards.

방위사업에 적용 가능한 시스템 엔지니어링 표준에 대한 고찰 (A Study on the System Engineering Standard Applicable to Defense Program)

  • 김보현;허장욱
    • 시스템엔지니어링학술지
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    • 제12권2호
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    • pp.1-8
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    • 2016
  • The system engineering should be actively applied to successfully develop a complex and advanced weapon system, because the system engineering uses a multidisciplinary approach. Therefore, this study proposed a system engineering process for a successful weapon system development. According to the national standard policy, an IPT aspect system engineering standard must adapt the ISO/IEC/IEEE 15288. It also asks for tailoring with considering the IPT characteristics as a weapon system acquisition institution. The IPT aspect system engineering process to acquire a weapon system can be expressed with 3 process groups (Agreement, Technical Management, Technical) and 20 processes. There was a need for an institutional framework to hire retired experts from related organizations as consultants to apply the low-cost and high efficiency system engineering in the weapon system acquisition field.

무기체계 시험업무에 대한 리스크 관리 표준 프로세스 연구 (A Study on Standard Process of Risk Management for Defense Systems Test Works)

  • 나태흠;허동은;김영민;이주연
    • 한국군사과학기술학회지
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    • 제27권3호
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    • pp.364-374
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    • 2024
  • Today, risks created by uncertainty must be managed for successful project execution. From this perspective, applying a risk management process is very important for successful defense systems test works. This paper describes 'the implentation of risk management process for test work' carried out by DTERI's process improvement activities. In this study, the concept of risk management process, and details of the risk management process are examined through PMBOK and ISO/IEC/IEEE 15288, CMMI. After that, we defined 'Standard Process for Risk Management' of defence systems test works. And, we describe 'Risk Management Function' of DTERI's Project Management System(PMS) and the risk management process of DTERI. Finally, the effectiveness of the risk management standard process is verified through quantitative analysis.

시스템 엔지니어링 표준 기반 제철 플랜트 엔지니어링 업무표준 개발 사례 (A Case Study of Steel-making Plant Engineering Standard Development Based On Systems Engineering Standards)

  • 이태경;조래혁;;이중윤
    • 시스템엔지니어링학술지
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    • 제12권1호
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    • pp.7-23
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    • 2016
  • Plant engineering industry is considered as a key industry which will drive the future of Korea. However, Korean plant engineering companies have recently made huge losses in overseas businesses and the lack of engineering capability is pointed out as a main cause of this situation. Unlike Korean plant engineering companies, world leading engineering companies such as Flour and Bechtel have their own systems Engineering Standards/Guides ensuring successful fulfillments of the concept and basic design processes. An engineering standard for an organization is an essential means to shorten the time for engineering design, to maintain the engineering quality and to secure the engineering efficiency in the development of the complex system. Korean plant engineering companies'lack of engineering capability comes from the absence of the engineering standard. In the paper, we have developed a steel-making plant engineering standard based on a systems engineering standard. We chose both ISO/IEC/IEEE 15288 and NASA SE Handbook as main reference standards. First, we have introduced a life-cycle definition and a physical hierarchy of a general steel-making plant. Then we have introduced detailed engineering processes of each life-cycle stage. The full scope of the study was from the feasibility study to the basic design but in the paper, we have only introduced detailed engineering processes and exit criteria for the feasibility study and the concept design.