| Article ID: | iaor201529037 |
| Volume: | 24 |
| Issue: | 10 |
| Start Page Number: | 1524 |
| End Page Number: | 1536 |
| Publication Date: | Oct 2015 |
| Journal: | Production and Operations Management |
| Authors: | Simchi-Levi David, Klabjan Diego, Kim Chiwon |
| Keywords: | inventory, stochastic processes, decision, combinatorial optimization, programming: multiple criteria |
In recent supply chains, often operating multiple delivery modes such as standard freight shipping and air is an effective way of addressing both delivery lead time uncertainties and service rates. We propose a model on how to optimally operate multiple delivery modes. We consider a serial supply chain and an expediting option from intermediate installations to the downstream of the chain. The goods move stochastically among the installations and the system faces a stochastic demand. We identify systems that yield simple optimal policies, in which both regular ordering and expediting follow a variant of the base stock policy. Expediting allows the system to be leaner due to the reduced regular order amount. In addition, we provide managerial insights linking expediting, base stock levels, and expediting costs based on analytical and numerical results.