Concurrent Engineering: Automation, Tools, and TechniquesAndrew Kusiak Presents a top-down approach to the design, development, testing and recyclability of products, components and systems across a wide range of industries. Starting with the desired result and working back through the details, it shows how to produce goods, taking into account the challenges of actual manufacture, what the reliability requirements should be, quality control, associated costs, customer needs and more. Additional features include case studies and team negotiating. Also well-illustrated with figures, photographs, charts and tables and includes an extensive bibliography. |
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Contents
A New Opportunity | 1 |
Modeling of Concurrent Engineering Design | 19 |
Automated Analysis Idealization Control | 41 |
Concurrent Engineering in Optimal Structural Design | 75 |
RealTime Constraint Checking in the Design Process | 111 |
A Qualitative Physics | 131 |
An Intelligent Design for Manufacturing System | 153 |
Modeling and Reasoning for ComputerBased Assembly | 177 |
Reliability Design for Manufacturing ULSI Circuits | 349 |
LifeCycle Serviceability Design | 363 |
Design for Maintainability | 385 |
Design for Economics | 401 |
Intelligent Evaluation of Designs for Manufacturing Cost | 437 |
Use of an AgentBased System for Concurrent Mechanical | 463 |
Decomposition in Concurrent Design | 481 |
An Approach to Parametric Machine Design and Negotiation | 509 |
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Common terms and phrases
algorithm analysis Analytic Hierarchy Process application approach Artificial Intelligence ASME aspect models attribute automated CAD system characteristics components Computer-Aided Design concept concurrent engineering configuration constraints database defined design agents design for manufacture design object design process economic elements Engineering Design environment evaluation example expert system feature primitives FIGURE function fuzzy set geometry goal goal manager graph idealization implementation incidence matrix integrated interaction interface knowledge-based Kusiak layout life-cycle design loss function manufacturing system material matrix MDHC mechanical metamodel methodology methods MTBF node noise factors operating optimization parameter design performance phase problem procedure product design Quality Function Deployment relationships reliability repair represent representation Research rules selection shown in Fig Simulation solution specific strategy structure subassembly system design Taguchi Taguchi Method target value tasks techniques tion tolerance design topology variables weld