An efficient method for dynamic-demand joint replenishment problem with multiple suppliers and multiple vehicles.
He-Yau KangAmy H. I. LeeChien-Wei WuCheng-Han LeePublished in: Int. J. Prod. Res. (2017)
Keyphrases
- significant improvement
- high precision
- computational cost
- preprocessing
- prior knowledge
- experimental evaluation
- classification method
- detection method
- objective function
- dynamic programming
- dynamic environments
- computationally efficient
- multiple objects
- real time
- synthetic data
- supply chain
- support vector machine
- cost function
- similarity measure