• Proceedings of the KSR Conference
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• 2003.05a
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• pp.525-532
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• 2003

The mission of tilting train development project is enhancing the speed of transportation of railway passenger using existing infrastructure. The threat of this project is the tilting technology is newly incorporated to this project. To overcome the threat this project incorporate systems engineering technology to development tilting train system. The systems engineering process, which was used in this project, was performed in accordance with systems engineering standard EIA632. This paper shows the systems engineering technology which was used to develop the tilting train system specification. This paper also shows the requirement template which was developed to communicate and synthesis various specialty engineering.

• Journal of Korean Society of Industrial and Systems Engineering
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• v.27 no.3
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• pp.31-36
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• 2004

This paper will describe design process and its results that are minimized unaddressed feature of product development processes. This process provides integrated system design process by context analysis of EIA 632 standard process, interface definition from activity decomposition, integration of related activities, and definition of concurrency & sequential activities flow. This process and method application will contribute to minimize time loss that is emerged from activities iteration by not definitely definition of activities interface.

• Proceedings of the Korea Committee for Ocean Resources and Engineering Conference
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• 2006.11a
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• pp.303-306
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• 2006

Systems engineering is an interdisciplinary approach encompassing the entire technical effort to evolve and verify an integrated and total Life cycle balanced set of system, people, and process solutions that satisfy customer needs. Systems engineering is the integrating mechanism across the technical efforts related to the development, manufacturing, verification, deployment, operations, support, disposal at and user training for systems and their life cycle processes (EIA/IS 632). This paper introduces the principles and processes of systems engineering, based on EIA/IS 632, as a methodology for the development of large-complex marine systems.

• Journal of the Korean Society for Railway
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• v.10 no.6
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• pp.751-757
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• 2007

This paper is concerned with the development of the requirements for railway safety support information systems. The five safety elements at the system level have been modeled based on the enterprise architecture approach. Specifically, the modeling has been carried out as follows. First, the requirements are derived according to EIA-632 process. Also, the possible scenarios on the accident-investigation-support are developed from the help of relevant personnel in the area. The developed scenarios are reflected in modeling the operational and system architectures of DoDAF approach using a CASE tool. From this architecture model, we can easily get the specifications required for the operations. These results can give the improved understanding of the railway safety system to the members of diverse teams and areas working for the system development.

• Journal of the Korea Institute of Military Science and Technology
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• v.13 no.5
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• pp.801-807
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• 2010

Requirements management is one of the most essential activities of systems engineering in developing successful weapon systems. Particularly it is very important to consistently manage the traceability among the user requirements, the system requirements, the development specifications and the testing plans throughout the entire life cycle of the weapon system. However, the most part of requirements-related activities has centered around the functional and performance requirements but the integrated logistics support(ILS) requirement has not properly been managed. In this regard, a special attention is needed to develop and manage the ILS requirements. To do so, the ANSI/EIA-632 standard can be referred as a starting point since the ILS requirements of the weapon system under development are specified by the enabling products whereas the functional and performance requirements are covered by the end product requirements. Specifically, we first review and model several cases of previous weapon systems development, which reveals the problem of interest. Then, under the framework of ANSI/EIA-632, we study a hierarchical model for effectively managing ILS requirements by analyzing the features of ILS requirements. Finally, the value of the proposed model is discussed through the case study of electronic warfare equipment.

• Journal of Korean Society for Quality Management
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• v.32 no.3
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• pp.141-152
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• 2004

This study describes process and method to establish concurrent and/or sequential schedule planning for the system design process of the EIA632 standard. For this purpose, the study suggest Process and method that are context analysis of standard process, interface definition from activity decomposition, integration of related activities, and definition of concurrent and/or sequential work flow. The proposed process and method will contribute to minimize time loss that is emerged from activities iteration.

• Journal of the Korean Society of Systems Engineering
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• v.6 no.2
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• pp.1-6
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• 2010

본 논문은 시스템 엔지니어링 프로세스 및 방법론에 입각하여 조직의 시스템 엔지니어링 전산지원도구 인프라를 구축한 사례에 대해 제시한다. SE 표준 프로세스인 EIA-632를 기준으로 시스템 설계의 요구사항 정의 프로세스, 해결방안 정의 프로세스, 제품구현의 구현 프로세스, 기술평가의 시스템 분석 프로세스를 효율적으로 수행할 수 있도록 전산지원도구 인프라를 IBM 사의 Rational 제품들로 구축한 것을 보여주고, 각 프로세스 별 구축된 전산지원도구의 활용법을 보여준다.

• 시스템엔지니어링워크숍
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• s.1
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• pp.134-139
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• 2003

The mission of tilting train development project is enhancing the speed of transportation of railway passenger using existing infrastructure. The threat of this project is the tilting technology is newly incorporated to this project. To overcome the threat this project incorporate systems engineering technology to development tilting train system. The systems engineering process, which was used in this project, was performed in accordance with systems engineering standard EIA632. This paper shows the systems engineering technology which was used to develop the tilting train system specification. This paper also shows the requirement template which was developed to communicate and synthesis various specialty engineering.

• International conference on construction engineering and project management
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• 2007.03a
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• pp.356-365
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• 2007

The development in the design process is usually based on the choice of a method for designing the system, in which this method is frequently faced with tightening environmental requirements, reducing development cycle times and growing complexity. To tackle such factors, the paper proposes a comprehensive approach focusing on applying systems engineering approach to the building design support. In particular, this paper addresses all capabilities of using some available systems engineering standards (like EIA-632) in the design process. Then, a methodological approach is proposed for the practice of requirements engineering by applying quality assessment and control to design in early phase. The paradigm used, here is to extend and particularly to adapt the work carried out in military and space systems to modern building services by taking into account the semantics of buildings in terms of different engineering fields and architecture issues.

• 한국경영정보학회:학술대회논문집
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• 2007.06a
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• pp.1023-1029
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• 2007

우리는 국가 경쟁력의 한 분야인 사업관리에 있어 계획, 수행, 성과관리, 개선에 최적의 프로세스 보유가 요구된다. 그러나 Project관리체계의 현 실태는 일정관리, 범위관리, 비용관리에 초점을 맞춘 일정관리체계, WBS(Work Breakdown Structure) 및 OBS(Organizational Breakdown Structure)관리, 비용관리체계의 부분 통합 혹은 서로의 연계 정도이다. 본 연구는 최적의 사업관리를 위하여 계약관리에 체계공학을 연계하여 계약 전에 WBS, IMP/IMS(Integrated Master Plan)/(Integratcd Master Schedule), TPM(Technical Performance Measurement) 등의 SEP(Systems Engineering Plan)와 계약 후의 이행을 검증 할 수 있는 과정의 Guideline을 제시하고, IEEE 1220, ANSI/EIA 632 순기 의거 개념설계부터 통합시험에 이르는 체계공학 순기에 따른 비용예측이 가능한 USC(University of Southern CalIfornia) 대학의 COSYSMO (Constructive Systems Engineering Cost ModeI)를 소개하고 적용 가능성을 고찰하며, Project의 전순기에 걸쳐 TPM 혹은 Quality를 비용과 일정에 통합하여 관리하는 PBEV(Performance Based Earned Value)모델을 소개하고 적용 가능성을 제시한다. Project 관리에 있어 System 차원을 강조한 SE(Systems Engineering), 비용예측의 CM(Cost Management), 성과관리를 위한 EVM(Earned Value Management)의 통합은 사업 관리에 역량을 강화하며 경쟁력을 향상 시킬 수 있는 적절한 접근으로 사료된다.