Application of Lateral Transshipment in Cost Reduction of Decentralized Systems

Application of Lateral Transshipment in Cost Reduction of Decentralized Systems

Jun Li, Ying Li, Yi Liao, Wen-Jing Shen, Xinxin Hu

COVID-19 has exposed the global supply chains to great vulnerability. In such extreme circumstances, product availability becomes a primary concern. This paper studies a basic inventory management strategy—lateral transshipment—under decentralized systems, which may play an important role in dealing with stockouts during unexpected crises. Lateral transshipments not only react quickly to stockout, but are also environmentally friendly due to the significant reduction of production and transportation pollution. This paper studies optimal lateral transshipment and replenishment decisions under a decentralized setting. We construct a multi-stage stochastic model that captures demand uncertainty and customer switching behavior. We demonstrate that, similar to the centralized setting, the optimal transshipment decision follows a double-threshold structure. The optimal replenishment quantities are determined under two pricing mechanisms—individual mechanism (IP) and negotiated mechanism (NP). Numerical examples are provided to demonstrate the impact of lateral transshipment on supply chain cost reduction.

2020

sustainability, Supply Chain Management, Lateral transshipment, random switching

DOI: 10.3390/su12125081

Sustainability

MDPI AG

Environmental sciences, Renewable energy sources, Environmental effects of industries and plants