Korean Journal of Computational Design and Engineering (한국CDE학회논문집)

Society for Computational Design and Engineering (한국CDE학회)
권호 표지

The Web-Based Engineering Process Framework for Concurrent Engineering

동시공학 구현을 위한 Web 기반의 공학 프로세서 지원 프레임워크

  • 김현 (한국전자통신연구원 동시공학연구팀) ;
  • 명재형 (한국전자통신연구원 동시공학연구팀) ;
  • 목경태 (한국전자통신연구원 동시공학연구팀)
  • Published : 1998.12.01
Download PDF
⟨ Previous Next ⟩

Abstract

The engineering process including design, analysis/evaluation and manufacturing activities is becoming one of the key issues to embody a concurrent engineering concept. This paper proposes a framework to integrated the complicated engineering design and manufacturing processes under the concurrent engineering environment. The framework offers the following facilities: (1) to represent the complicated engineering process (2) to coordinate design activities and execute the process in a distributed environment (3) to support a communication among the related engineers. The engineering processes is depicted using process flow graphs that consist in tasks and the corresponding input and output data. The engineering activities in the defined processes can be executed in a distributed environment through process controller of the framework. Engineers can communicate to suggest their opinions and to exchange product information in the framework. We have conformed the CORBA standard to integrate various distributed engineering the and communicate among them, and used a Java to support the platform independent environment on the Internet. Since the proposed framework an be a formal approach to integrate the engineering processes by providing formalism, parallelism, reusability, and flexibility, it can be effectively applied to embody the concurrent engineering concept in a distributed environment.

Keywords

References

  1. IDA Report R-338 The Role of Concurrent Engineering in Weapon System Aquisition Institute of Defense Analysis
  2. Proceedings of The 2nd International Conference & Exhibition, CALS Korea '95 A Concurrent Engineering System for New Product Development Chi-jae Oh;Hyun Kim;Seok-Chan Jeong;Haw-Gyoo Park
  3. Successful Implementation of Concurrent Engineering Products and Processes A Team Approach to Concurrent Engineering: A Case Study Zelenak, S.;Ridenour, M.A.;Troxell, W.O.;S.G. Shina(ed.)
  4. Standardization and Quality Control Deployment of quality and reliability Takezawa N.;Takahashi M.
  5. Quality Function Deployment: Integrating Customer Requriements into Product Design Akao, Yoji
  6. Design For Manufacture John Corbett;Mike Dooner;John Meleka;Christopher Pym
  7. Product Design for Assembly Handbook Boothroyd G.;Dewhurst P.
  8. Proceedings of Computer-Supported Cooperative Work-90 TeamWorkstation: Toward A Seamless Shared Workspace Ishii, H.
  9. Collaborative Computing Teledesign: Groupware User Experiments in Three-Dimensional Computer-Aided Design Shu, L.;W. Flowers
  10. Distributed Artificial Intelligence v.2 The Cooperation of Experts in Engineering Design Bond, A.;Gasser, L.(ed.);Huhns, M.N.(ed.)
  11. Proceedings of IJCAI-95 Workshop Intelligent Manufacturing Systems Designing Integrated Engineering Environments: Blackboard-Based Integration of Design and Analysis Tools Lander, S.E.;Staley, S.M.;Corkill, D.D.
  12. Proceedings of $33^{rd}$ Design Automation Conference A Description Language for Design Process Management Peter R.S.;Stephan W.D.
  13. Proceedings of the 28th Design Automation Conference Design Flow Management in the NELSIS CAD Framework Bosch, K.O.;Bingley, P.;Van der Wolf, P.
  14. IEEE Computer A Formal Approach to Managing Design Processes Reid A.;Baldwin;Moon J. Chung
  15. 한국CALS/EC학회지 v.2 no.1 분산환경 하의 설계 및 제조활동을 위한 프로세스 관리 기법 박화규;김현;오치재;정문정
  16. ISO Documentation, ISO DIS 10303-1 Product Data Representation and Exchange-Part1: Overview and Fundamental Principles ISO Technical Committee 184
  17. CORBA Jon Siegel