Abstract
In light of a circular economy, to encourage core returns, the remanufacturer charges a deposit and refund it to the customer based on quality inspection of cores. Generally, two types of classification errors exist and interact with each other during the inspection process: either low-quality cores are sorted as remanufacturable, or high-quality cores are sorted as non-remanufacturable. The remanufacturer needs to choose refund policies and determine a reasonable deposit value, considering customers’ potential responses. This paper firstly develops analytical solutions for these issues within a game theory framework. The effect of inspection information transparency is evaluated by comparing two settings: the information of inspection errors is available to customers or not. The study results show the advantage of inspection information transparency from the remanufacturer’s perspective. The analysis indicates the importance of avoiding overestimating customers’ payoff of products and the significance of inspection accuracy. The study also highlights that the salvage value of different cores significantly influences the remanufacturer’s profits, and the improvement of inspection accuracy does not necessarily reduce the customer’s return of low-quality cores.
Highlights
In the circular economy, remanufacturing has been proposed as an important business strategy to manage and improve resource loops (Jensen et al 2019)
As inspection error is the primary concern in this paper, we focus on the core acquisition quality issue
We first assume that the information is symmetric for the remanufacturer and the customer about such errors (Section 4), we further extend to the asymmetric case (Section 5)
Summary
In the circular economy, remanufacturing has been proposed as an important business strategy to manage and improve resource loops (Jensen et al 2019). To keep material resources in circulation for multiple lifetimes, and in the meantime, to guarantee the remanufactured products, Caterpillar adapts an exchange business, in which customers pay the price plus a deposit and receive a refund in returning the core (Caterpillar 2020). In the previous cases of maritime containers and used tires retreating, there are returns reported to the thirdparty remanufacturers (Debo and Van Wassenhove 2005; Pappis, Rachaniotis, and Tsoulfas 2005) With a deposit-refund policy and dependent core inspection errors, this study investigates the customer’s response and remanufacturer’s decision making and considers the impact of asymmetric information.
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