Paper Info
Title
Optimal operational policies of a dual-channel supply chain considering return service
Abstract
This study investigates the operational policies in a dual-channel supply chain, in which the manufacturer can sell products online and indirectly via an independent retailer to end consumers. By using a two-stage optimization method and the Stackelberg game, we explore the optimal decisions regarding delivery distance, allowable return period, and price strategies for the manufacturer and retailer, in both a centralized and decentralized dual-channel supply chain. The results show that for any given delivery distance and allowable return period, the optimal retail price and the direct selling price in a centralized supply chain are equal to the optimal wholesale price and the direct selling price in a decentralized supply chain, respectively. Besides, the basic demand proportion of the retail channel and the demand loss proportion differences significantly affect the supply chain members’ equilibrium decisions. For the retail price, there are thresholds about the delivery distance and the allowable return period. On both sides of the thresholds, the retailer’s retail price has different structural properties. Interestingly, the total profit of the retailer and the manufacturer in the decentralized supply chain is always lower than that in the centralized supply chain. Our research provides some management implications for enterprises. For example, the manufacturer could raise the direct selling price for consumers who are close to the warehouse, but offer a lower price for consumers who are farther away.
Year
DOI
Venue
2022
10.1016/j.matcom.2022.04.009
Mathematics and Computers in Simulation
Keywords
DocType
Volume
Dual-channel,Delivery distance,Consumer returns,Stackelberg game,Numerical simulation
Journal
199
ISSN
Citations 
PageRank 
0378-4754
0
0.34
References 
Authors
0
3
Name
Order
Citations
PageRank
Qiang Wang100.34
Jie Wu240936.02
Nenggui Zhao300.34