TY - JOUR
T1 - Capacitated dynamic lot sizing problems in closed-loop supply chain
AU - Pan, Zhendong
AU - Tang, Jiafu
AU - Liu, Ou
N1 - Funding Information:
The authors owe special thanks to an anonymous referee for insightful comments on this paper. This paper is financially supported by the Natural Science Foundation of China (NSFC 70625001, 70721001). Liaoning Provincial Scientific Project, PhD program funding of Ministry of Education (MOE) and 111 project of MOE in China with number B08015.
PY - 2009/11/1
Y1 - 2009/11/1
N2 - In this paper, we address the capacitated dynamic lot sizing problem arising in closed-loop supply chain where returned products are collected from customers. These returned products can either be disposed or be remanufactured to be sold as new ones again; hence the market demands can be satisfied by either newly produced products or remanufactured ones. The capacities of production, disposal and remanufacturing are limited, and backlogging is not allowed. A general model of this problem is formulated, and several useful properties of the problem are characterized when cost functions are concave. Moreover, this problem is analyzed and solved to optimality using dynamic programming algorithms under different scenarios. It is shown that the problem with only disposal or remanufacturing can be converted into a traditional capacitated lot sizing problem and be solved by a polynomial algorithm if the capacities are constant. A pseudo-polynomial algorithm is proposed for the problem with both capacitated disposal and remanufacturing. The problem with capacitated production and remanufacturing and the problem with uncapacitated production and capacitated remanufacturing are also analyzed and solved. Through numerical experiments we show that the proposed algorithms perform well when solving problems of practical sizes. From the experimental results also indicates that it is worthwhile to expand the remanufacturing capacity only when returned products exist in a relatively long planning horizon, and production capacities have little effect on the remanufacturing plan when the demand is mainly satisfied by the production.
AB - In this paper, we address the capacitated dynamic lot sizing problem arising in closed-loop supply chain where returned products are collected from customers. These returned products can either be disposed or be remanufactured to be sold as new ones again; hence the market demands can be satisfied by either newly produced products or remanufactured ones. The capacities of production, disposal and remanufacturing are limited, and backlogging is not allowed. A general model of this problem is formulated, and several useful properties of the problem are characterized when cost functions are concave. Moreover, this problem is analyzed and solved to optimality using dynamic programming algorithms under different scenarios. It is shown that the problem with only disposal or remanufacturing can be converted into a traditional capacitated lot sizing problem and be solved by a polynomial algorithm if the capacities are constant. A pseudo-polynomial algorithm is proposed for the problem with both capacitated disposal and remanufacturing. The problem with capacitated production and remanufacturing and the problem with uncapacitated production and capacitated remanufacturing are also analyzed and solved. Through numerical experiments we show that the proposed algorithms perform well when solving problems of practical sizes. From the experimental results also indicates that it is worthwhile to expand the remanufacturing capacity only when returned products exist in a relatively long planning horizon, and production capacities have little effect on the remanufacturing plan when the demand is mainly satisfied by the production.
KW - Capacitated dynamic lot sizing problem
KW - Closed-loop supply chain
KW - Disposal
KW - Production
KW - Remanufacturing
UR - http://www.scopus.com/inward/record.url?scp=64049089980&partnerID=8YFLogxK
U2 - 10.1016/j.ejor.2008.10.018
DO - 10.1016/j.ejor.2008.10.018
M3 - Article
AN - SCOPUS:64049089980
SN - 0377-2217
VL - 198
SP - 810
EP - 821
JO - European Journal of Operational Research
JF - European Journal of Operational Research
IS - 3
ER -