Supporting R&M in a concurrent engineering environment

计算机辅助工程 Pub Date : 1992-01-01 DOI:10.1109/RMCAE.1992.245516

J. Harding, R. G. Wissman, R. Wood

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Abstract

This paper illustrates how the DICE concurrent engineering environment supports a remote, interdisciplinary team in cooperative decision-making during all phases of product development. The objectives of this environment are to enable government and industry to manage complexity and to improve continuously the total quality of their products, systems, and services, and customer satisfaction. Each discipline in the development team is remotely interfaced to all others and to a full range of shared services through networked computer workstations. In particular, the R&M discipline is supported as an equal member of the product-development team by means of the logistics workstation and selected computer-aided tools integrated with it. A logistics process tool, which identifies links between design, manufacturing and logistics disciplines, is described along with a toolbox of supporting analysis and evaluation methods. The principal barriers to the acceptance of concurrent engineering are institutional and cultural. We conclude with a plan for resolving these barriers by training, education, and selected application of technologies for organizational modeling and supported communications.<>

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在并发工程环境中支持R&M

本文阐述了DICE并发工程环境如何在产品开发的所有阶段支持远程、跨学科团队的协作决策。该环境的目标是使政府和行业能够管理复杂性，并不断改进其产品、系统和服务的总体质量，以及客户满意度。开发团队中的每个规程都通过网络计算机工作站与所有其他规程以及所有范围的共享服务进行远程接口。特别是，通过物流工作站和与之集成的选定计算机辅助工具，R&M学科作为产品开发团队的平等成员得到支持。一个物流过程工具，它确定了设计、制造和物流学科之间的联系，并与支持分析和评估方法的工具箱一起描述。接受并行工程的主要障碍是制度和文化。我们总结了一个计划，通过培训、教育和组织建模和支持通信的技术选择应用来解决这些障碍。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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计算机辅助工程

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