Article ID: | iaor20131337 |
Volume: | 64 |
Issue: | 2 |
Start Page Number: | 708 |
End Page Number: | 720 |
Publication Date: | Feb 2013 |
Journal: | Computers & Industrial Engineering |
Authors: | Jaber Mohamad Y, Glock Christoph H |
Keywords: | inventory, learning |
This paper studies a serial production line where a proportion of defective items is produced at each stage. Defective units enter a rework process, which is imperfect as well. Twice defective items are scrapped. This paper also considers learning and forgetting in production and rework processes and studies how the number of shipments of a lot from a production stage to the next influences the overall performance of the system. A model for a multi‐stage production‐inventory system is developed and optimized against an aggregate performance measure of four partial measures that are based on production time, process yield, in‐process inventory and shipment frequency. Each of these partial performance measures is weighed by the system’s decision maker in accordance to importance. The numerical results show how the values of learning rates, weights assigned to the partial performance measures and the number of production stages influence the overall performance of the system.