Inventory Control in Hybrid Systems with Remanufacturing
Management Science
Lot-sizing for inventory systems with product recovery
Computers and Industrial Engineering
Optimal manufacturing-remanufacturing policies in a lean production environment
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Note on: An optimal ordering and recovery policy for reusable items
Computers and Industrial Engineering
Strategic network design for reverse logistics and remanufacturing using new and old product modules
Computers and Industrial Engineering
Computers and Industrial Engineering
An optimal operating policy for the production system with rework
Computers and Industrial Engineering
Lot sizing for a recoverable product with inspection and sorting
Computers and Industrial Engineering
Optimal recycling and ordering policy with partial backordered shortage
ICCSA'07 Proceedings of the 2007 international conference on Computational science and its applications - Volume Part I
An EMQ model in an imperfect production process
International Journal of Systems Science
Optimal ordering and recovery policy for reusable items with shortages
SEAL'06 Proceedings of the 6th international conference on Simulated Evolution And Learning
Optimal policy for a closed-loop supply chain inventory system with remanufacturing
Mathematical and Computer Modelling: An International Journal
Sequential and global optimization for a closed-loop deteriorating inventory supply chain
Mathematical and Computer Modelling: An International Journal
Computers and Industrial Engineering
Journal of Intelligent Manufacturing
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This paper deals with a joint EOQ and EPQ model in which the stationary demand can be satisfied by recycled products and newly purchased products. The model assumes that a fixed proportion of the used products are collected from customers and later recovered for reuse. The recovered products are regarded as perfectly new ones. We obtain (i) the economic order quantity for newly procured products and (ii) the optimal inventory level of recoverable items to start the recovery process, simultaneously. According to the relationship between parameters, we propose some numerical models to analyze the system. Then a solution procedure to find the optimal control parameters is presented, and finally some numerical examples are given to illustrate the model.