再制造供应链的库存管理策略

上海交通大学学报（自然版） ›› 2015, Vol. 49 ›› Issue (04): 558-563.

再制造供应链的库存管理策略

朱锋a，董明b，张大力a

（上海交通大学 a. 中美物流研究院；b. 安泰经济与管理学院，上海 200230）

收稿日期:2013-09-11
基金资助:
教育部博士点基金（20120073110029），国家自然科学基金重点项目（71131005），上海交通大学文理交叉重点项目（11JCZ02）

Inventory Management Policy for Supply Chain Systems with Remanufacturing

ZHU Fenga,DONG Mingb,ZHANG Dalia

(a. SinoUS Global Logistics Institutes; b. Antai College of Economics and Management, Shanghai Jiaotong University, Shanghai 200230, China)

Received:2013-09-11

摘要/Abstract

摘要：

摘要：研究再制造供应链的库存管理策略，证明了再制造环境下类似传统供应链中(s,S)策略的最优库存管理策略的存在性.针对订货提前期存在下由于回收产品量信息缺失而造成的理论最优库存管理策略无法实现的问题，进行了产品用户端信息的挖掘，明确了最优策略实现所需的用户端信息.通过实例对算法进行仿真实验，结果验证了(s,S)策略在再制造供应链中的最优性和用户端信息共享对库存成本节约的积极意义.
关键词：再制造；库存管理；订货策略；用户端信息
中图分类号： F 270； F 252文献标志码： A

Abstract:

Abstract： The inventory policy for supply chain systems with remanufacturing was discussed. The existence of (s,S) type optimal inventory policy was proved. Under leadtime scenarios, the theoretical optimal policy is infeasible as a consequence of the lacking of the returning information of products. Data mining within the user phase was executed to solve this problem. Specification of user phase information that served to implementing optimal policy was articulated. Simulation experiments were conducted to verify the optimality of (s,S) type policy and the contribution of user phase information sharing to inventory cost reduction.
Key words：

Key words: remanufacturing, inventory management, procurement policy, user phase information

朱锋a，董明b，张大力a. 再制造供应链的库存管理策略[J]. 上海交通大学学报（自然版）, 2015, 49(04): 558-563.

ZHU Fenga,DONG Mingb,ZHANG Dalia. Inventory Management Policy for Supply Chain Systems with Remanufacturing[J]. Journal of Shanghai Jiaotong University, 2015, 49(04): 558-563.

参考文献

［1］Scarf H. Mathematical methods in social sciences［M］. Stanford:Stanford University Press, 1960.

［2］Veinott A F. On the optimality of (s,S) inventory policies: new conditions and a new proof［J］. SIAM Journal of Applied Mathematics, 1966, 14(5): 10671083.

［3］Zipkin P, Federgruen A. Computational issues in an infinitehorizon, multiechelon inventory model［J］. Operations Research, 1984, 32(4): 818836.

［4］Schrady D A. A deterministic inventory model for repairable items［J］. Naval Research Logistics Quarterly, 1967, 14(3): 391398.

［5］Nahmias S, Rivera H. A deterministic model for a repairable item inventory system with a finite repair rate［J］. International Journal of Production Research, 1979, 17(3): 215221.

［6］Dobos I, Richter K. A production/recycling model with quality consideration［J］. International Journal of Production Economics, 2004, 104(2): 571579.

［7］Van der Lann, Teunter R H. Simple heuristics for push and pull remanufacturing policies［J］. European Journal of Operational research, 2006, 175(2): 10841102.

［8］Simpson V P. Optimum solution structure for a repairable inventory problem［J］. Operations Research, 1978, 26(2): 270281.

［9］Inderfurth K. Simple optimal replenishment and disposal policies for a product recovery system with leadtimes［J］. OR Spektrum, 1997, 19(2): 111122.

［10］Kiesmuller G P. A new approach for controlling a hybrid stochastic manufacturing/remanufacturing system with inventories and different leadtimes［J］. European Journal of Operational Research, 2003, 147(1): 6271.

［11］Ahiska S, King R E. Inventory optimization in a one product recoverable manufacturing system［J］. International Journal of Production Economics, 2010, 124(1): 1119.