Consider a divergent multi-echelon inventory system, e.g. a distribution system or a production system. At every facility in the system orders are placed (or production is initiated) periodically. The order arrives after a fixed lead time. At the end of each period linear costs are incurred at each facility for holding inventory. Also, linear penalty costs are incurred at the most downstream facilities for backorders. The objective is to minimize the expected holding and penalty costs per period. We prove that under the balance assumption it is cost-optimal to control every facility by an order-up-to-policy. The optimal replenishment policy, i.e., the order-up-to-level and the rationing functions at each facility, can be determined by decom...
This paper considers a one-warehouse multi-retailer inventory system that faces discrete stochastic ...
In this paper we consider a 1-warehouse, N-retailer inventory system where demand occurs at all loca...
In this paper we determine a simple inventory control rule for multi-echelon distribution systems un...
Consider a divergent multi-echelon inventory system, e.g. a distribution system or a production syst...
Consider a divergent multi-echelon inventory system, e.g., a distribution system or a production sys...
In this paper we consider a divergent multi-echelon inventory system, e.g., a distribution system or...
Consider a divergent multi-echelon inventory system, such as a distribution system or a production s...
Abstract Consider a divergent multi-echelon inventory system, e.g., a distribution system or a produ...
This note considers an N-stage serial production/inventory system where materials flow from one stag...
Efficient management of multi-echelon systems requires coordination between replenishment decisions,...
This paper deals with integral inventory control in multi-echelon divergent systems with stochastic ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Sloan School of Management, 2002.Includes bi...
In this paper we analyze stock allocation policies in general N-echelon distribution systems, where ...
We consider inventory control in a two-echelon divergent network, consisting of a central depot and ...
We consider inventory control in a two-echelon divergent network, consisting of a central depot and ...
This paper considers a one-warehouse multi-retailer inventory system that faces discrete stochastic ...
In this paper we consider a 1-warehouse, N-retailer inventory system where demand occurs at all loca...
In this paper we determine a simple inventory control rule for multi-echelon distribution systems un...
Consider a divergent multi-echelon inventory system, e.g. a distribution system or a production syst...
Consider a divergent multi-echelon inventory system, e.g., a distribution system or a production sys...
In this paper we consider a divergent multi-echelon inventory system, e.g., a distribution system or...
Consider a divergent multi-echelon inventory system, such as a distribution system or a production s...
Abstract Consider a divergent multi-echelon inventory system, e.g., a distribution system or a produ...
This note considers an N-stage serial production/inventory system where materials flow from one stag...
Efficient management of multi-echelon systems requires coordination between replenishment decisions,...
This paper deals with integral inventory control in multi-echelon divergent systems with stochastic ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Sloan School of Management, 2002.Includes bi...
In this paper we analyze stock allocation policies in general N-echelon distribution systems, where ...
We consider inventory control in a two-echelon divergent network, consisting of a central depot and ...
We consider inventory control in a two-echelon divergent network, consisting of a central depot and ...
This paper considers a one-warehouse multi-retailer inventory system that faces discrete stochastic ...
In this paper we consider a 1-warehouse, N-retailer inventory system where demand occurs at all loca...
In this paper we determine a simple inventory control rule for multi-echelon distribution systems un...