ProceedingsIEEE Computer Society Press, 2003 - Artificial intelligence |
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Page 51
... Cycle time Cycle time for manual assembly is given by Boothroyd , for products having a size of 6 mm or slightly less . An orientation and assembly time of 12 s is thus obtained for the assembly of watch wheels as those assembled on our ...
... Cycle time Cycle time for manual assembly is given by Boothroyd , for products having a size of 6 mm or slightly less . An orientation and assembly time of 12 s is thus obtained for the assembly of watch wheels as those assembled on our ...
Page 116
... cycle time . On a section , the vehicle must be manufactured by the workstations placed on this section during an interval of time , called the cycle time ( CT ) . So operations assigned to a workstation ( entering in the composition of ...
... cycle time . On a section , the vehicle must be manufactured by the workstations placed on this section during an interval of time , called the cycle time ( CT ) . So operations assigned to a workstation ( entering in the composition of ...
Page 155
... cycle 4-6-12-8-4 , and the 2 - fold cycle 9-11-9 . After forbidding the 2 - cycle , an objective equal to 1129 is found , with a quasi - solution consisting of the linear sequence 0-10-2-9-5 , the 4 - fold cycle 1-3-13- 7-1 , the 3 - fold ...
... cycle 4-6-12-8-4 , and the 2 - fold cycle 9-11-9 . After forbidding the 2 - cycle , an objective equal to 1129 is found , with a quasi - solution consisting of the linear sequence 0-10-2-9-5 , the 4 - fold cycle 1-3-13- 7-1 , the 3 - fold ...
Contents
Microassembly Microfactory | 1 |
Microassembly and Microfactory | 2 |
Process Planning | 24 |
Copyright | |
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5th IEEE International actuator applied approach Assembly and Task assembly model assembly operation assembly planning assembly process assembly sequence assembly system assembly tasks axis batch bin packing problem blocks C-space cell cleanroom components computation configuration configuration space considered contact angle cost cycle defined deflexions device disassembly sequence duo-bi environment equation equipment evaluation Figure flexible France July 10-11 genetic algorithm geometric gripper HACCP haptic holons hypergraph IEEE International Symposium integrated interface linear manipulation mechanism metaheuristic method micro micro-motor microbox microfactory motion motor node obtained optical tweezers optimal parameters path planning performance Petri net piezoelectric placement points position precedence graphs problem proposed PVDF representation Robotics and Automation rotation scheduling sensor simulation solution space sub tour subassemblies surface Symposium on Assembly Task Planning Besançon tion tolerancing torque trajectory transition V₂ virtual workstation