By National Research Council, Division on Engineering and Physical Sciences, Commission on Engineering and Technical Systems, Committee on Advanced Engineering Environments
Advances within the functions of applied sciences appropriate to allotted networking, telecommunications, multi-user laptop functions, and interactive digital truth are developing possibilities for clients within the similar or separate destinations to interact in interdependent, cooperative actions utilizing a typical computer-based setting. those services have given upward thrust to particularly new interdisciplinary efforts to unite the pursuits of mission-oriented groups with these of the pc and social technology groups to create built-in, tool-oriented computation and verbal exchange structures. those platforms can allow groups in frequent destinations to collaborate utilizing the latest tools and computing assets. the advantages are many. for instance, a brand new paradigm for intimate collaboration among scientists and engineers is rising. This collaboration has the capability to speed up the advance and dissemination of information and optimize using tools and amenities, whereas minimizing the time among the invention and alertness of recent technologies.
Advanced Engineering Environments: reaching the imaginative and prescient, section I describes the advantages and feasibility of ongoing efforts to boost and practice complex engineering environments (AEEs), that are outlined as specific implementations of computational and communications platforms that create built-in digital and/or allotted environments linking researchers, technologists, designers, brands, providers, and customers.
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Additional resources for Advanced Engineering Environments: Achieving the Vision, Phase 1
Commercial competition, which has fostered many incompatibility problems, has also resulted in many improvements that have benefited all users. Nevertheless, the committee does not believe current levels of incompatibility are either inevitable or beneficial. A high level of integration, which is one of the defining characteristics of AEEs, is required to create an “environment” as opposed to a loosely bundled collection of tools and techniques. AEEs will be used to link researchers, technologists, designers, manufacturers, suppliers, customers, and other personnel who have a broad range of expertise and widely varying concerns.
The risk of error, of course, increases with more complex systems, and the cost and time implications of mistakes are magnified by the speed and scope of product deployment. AEEs have the potential to improve accuracy and efficiency of engineering processes throughout the life cycle of products and missions. For example, AEEs would TOP-LEVEL OBJECTIVES, BENEFITS, AND REQUIREMENTS The committee identified the following top-level objectives that AEEs should satisfy: • Enable complex new systems, products, and missions.
Traditional processes for designing, developing, manufacturing, and operating the systems needed to satisfy the complex missions of industry and government are becoming increasingly unsupportable because of cost, schedule, and personnel requirements. The complexity of products and processes has rapidly increased, and the amount and heterogeneity of data required to define, manufacture, and maintain these products have increased dramatically. Global design, manufacture, and maintenance means that this large mass of data must be accessible and movable over long distances and at high speed.
Advanced Engineering Environments: Achieving the Vision, Phase 1 by National Research Council, Division on Engineering and Physical Sciences, Commission on Engineering and Technical Systems, Committee on Advanced Engineering Environments