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 78
... Twist Angle , and Velocity . The line of sight and the twist angle at the viewpoint are essentially independent of the view function . In this chapter , however , they are defined using the view function . 3 There are several ways to ...
... Twist Angle , and Velocity . The line of sight and the twist angle at the viewpoint are essentially independent of the view function . In this chapter , however , they are defined using the view function . 3 There are several ways to ...
Page 79
... twist angle is defined to be the right -. FIGURE 3.8 . Walk - through in the organs . FIGURE 3.9 . ( Continued ) . FIGURE 3.18 . AUTOMATIC GENERATION OF THE VIEW FUNCTION 79.
... twist angle is defined to be the right -. FIGURE 3.8 . Walk - through in the organs . FIGURE 3.9 . ( Continued ) . FIGURE 3.18 . AUTOMATIC GENERATION OF THE VIEW FUNCTION 79.
Page 80
Andrew Kusiak. The twist angle is defined to be the right - hand rotation about the line of sight . In our implementation , it is kept constant during the walk - through . The time needed to move from one cross - sectional plane to ...
Andrew Kusiak. The twist angle is defined to be the right - hand rotation about the line of sight . In our implementation , it is kept constant during the walk - through . The time needed to move from one cross - sectional plane to ...
Contents
Features in Design and Manufacturing | 39 |
Moving Objects in Intelligent Design | 73 |
Qualitative Reasoning Methods in Design | 103 |
Copyright | |
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activities algorithm alternative analysis application approach architecture assembly automated behavior capacity cell chart complete components considered constraints cost database decision defined described determine developed discussed elements Engineering equipment error evaluation example expert system FIGURE fixture flexible function geometric given goal graph implementation Industrial input inspection integrated Intelligent knowledge limits machine manufacturing Manufacturing Systems material mean Mechanical methods node objective operations optimal output parameters path performance possible presented problem procedure process planning reasoning referred representation represented Research robot rules scheduling selection sequence shown simulation solution solving space specific stage standard station step strategy structure surface Table task techniques tion tool transformation units University variables workpiece workstation