ProceedingsIEEE, 1997 - Artificial intelligence |
From inside the book
Results 1-3 of 86
Page 224
... cost of being in configuration ceC for se S. Similarly , F ( s , c ) represents the single stage cost of being in configuration ce C for se S. Initially the costs in each state are estimated as the single stage cost of being in a given ...
... cost of being in configuration ceC for se S. Similarly , F ( s , c ) represents the single stage cost of being in configuration ce C for se S. Initially the costs in each state are estimated as the single stage cost of being in a given ...
Page 453
... cost obtained by summing up the inventory costs , the backlogging costs and the set - up costs related to the schedule . We denote by : I ; the cost of keeping in stock one part of type P ; during one elementary period A , B ; the cost ...
... cost obtained by summing up the inventory costs , the backlogging costs and the set - up costs related to the schedule . We denote by : I ; the cost of keeping in stock one part of type P ; during one elementary period A , B ; the cost ...
Page 457
... costs are given in Table IV . The inventory cost is the cost of keeping in stock one unit of product during one elementary period while the backlogging cost is the cost incurred when one unit of product is missing during one elementary ...
... costs are given in Table IV . The inventory cost is the cost of keeping in stock one unit of product during one elementary period while the backlogging cost is the cost incurred when one unit of product is missing during one elementary ...
Contents
Innovations in Design and Integrated | 1 |
Creative and Innovative Manufacturing | 4 |
Y Fan and C Wu Tsinghua Univ | 7 |
Copyright | |
43 other sections not shown
Other editions - View all
Common terms and phrases
according activities algorithm allows analysis application approach architecture assembly ATRT Automation called communication complete components considered constraints control system cost customers decision defined described determined dispatching distributed dynamic effective Engineering enterprise environment error estimated example exists Figure fixture flexible flow function given implementation important improvement industrial input integration interaction interface INTRODUCTION knowledge lead learning load locating machine manuals manufacturing means measurements method nets object obtained operation optimal output parameters performance Petri planning plant position possible presented problem proposed prototype real-time reference represents requirements robot rules scheduling selected sequence server shown shows simulation solution specific standard station structure task token tool transition unit University virtual