Intelligent Design and ManufacturingAndrew Kusiak Focuses on design and manufacturing and a variety of issues pertinent to successful techniques involving concurrent engineering. Considers product design and manufacturing constraints simultaneously, emphasizing the consideration of every element of the product's life cycle from concept through disposal. Examines such areas as quality, cost, scheduling and user needs. Design and manufacturing problems are thoroughly discussed and solutions are given by using numerous modern applications and implements, including basic artificial intelligence tools. |
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Page 509
... determine future courses of action . Thus the effects of the decision can be previewed before execution . The simulation is based on actual shop status maintained in the database , incorporates flexible process plans , and utilizes ...
... determine future courses of action . Thus the effects of the decision can be previewed before execution . The simulation is based on actual shop status maintained in the database , incorporates flexible process plans , and utilizes ...
Page 576
... determine a " transfer function " in the scheme of input - operator- output , and determination of the input through the knowledge of a “ target ” output . This procedure is called inverse design ( 22 , 23 ) . 22.4.4 . Inverse Design ...
... determine a " transfer function " in the scheme of input - operator- output , and determination of the input through the knowledge of a “ target ” output . This procedure is called inverse design ( 22 , 23 ) . 22.4.4 . Inverse Design ...
Page 718
... determine which rules are to be applied under which conditions . 4. Design the computational unit ; that is , supply algorithms to perform fuzzy computations . Those will generally lead to fuzzy outputs . 5. Determine rules according to ...
... determine which rules are to be applied under which conditions . 4. Design the computational unit ; that is , supply algorithms to perform fuzzy computations . Those will generally lead to fuzzy outputs . 5. Determine rules according to ...
Contents
Technology Selection and Capacity Planning for Manufacturing | 10 |
Features in Design and Manufacturing | 39 |
Moving Objects in Intelligent Design | 73 |
Copyright | |
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Common terms and phrases
algorithm analysis application approach architecture Artificial Intelligence assembly automated beam search behavior breadth-first search CAD system cell chart clamping classified components computer-aided design configuration constraints contour contour line control charts cost database decision defined described Design and Manufacturing design process developed entities evaluation example expert system feature FIGURE fixture flowpath flowpath design function fuzzy geometric model goal graph heuristic implementation inference engine input integrated Intelligent Design interaction knowledge base Kusiak machine matrix MCAE Mechanical methods module neural network node objects operations optimal output parameters path performance problem procedure process planning product design representation represented robot rules scheduling selection sequence shown in Fig simulated annealing simulation solution solving space specific standard station strategy structure surface tabu task techniques tion tool toroidal graph transformation variables workpiece workstation