Integrated product, process and enterprise design: why, what and how. Developing customer-focused new product concepts. An information architecture for integrating real-time process control into enterprise management. Quality function deployment: optimizing product designs. On process tolerance: a brief review and models. Design for reliability in concurrent engineering. Quality engineering. Rapid prototyping and free form fabrication. Assemblability evaluation using fuzzy inference. Computer-aided assembly planning. Process control. Integration of process planning and production scheduling overview, analysis and object-oriented modelling. Manufacturing systems design: a review of state-of-the-art methodologies. System modelling and simulation. Evaluation and optimization of manufacturing systems reliability.
The need exists in the private sector and government manufacturing sites to reduce product development time, production lead times, inventory, and non-value added activities. At the same time, there is increased pressure to improve manufacturing process yields, produc tion efficiency, and resource utilization. Much of the technology required to meet these needs already exists, but an integrated structure that can demonstrate the potential for the technology in a concurrent engineering context does not. This book provides a road map for building the integrated technology environment to evaluate existing products, manufacturing processes and system design tools. This book details innovative approaches that will significantly improve design/manufacturing technology development and deploy ment capabilities for civilian and defense applications. These approaches are integrated product, process, and system design (IPPSD) initiatives which will greatly enhance the manufacturing competitiveness of the economy. These approaches involve the use of simulation, modeling tools and computerized virtual workstations in conjunction with a design environment which allows a diverse group of researchers, manufacturers, and suppliers to work within a comprehensive network of shared knowledge. The IPPSD infrastructure consists of virtual workstations, servers and a suite of simulation, quantitative, computa tional, analytical, experimental and qualitative tools. Such an IPPSD infrastructure will permit effective and efficient predictions of complete product design, manufacturing proces design, and customer satisfac tion.
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