We consider a capacitated supply system that produces a single item that is demanded by several classes of customers. Each customer class may have a different backorder cost, so stock allocation arises as a key decision problem. We model the supply system as a multi customer make-to-stock queue. Using dynamic programming, we show that the optimal allocation policy has a simple and intuitive structure. In addition, we present an efficient algorithm to compute the parameters of this optimal allocation policy. Finally, for a typical supply chain design problem, we illustrate that ignoring the stock allocation dimension---a frequently encountered simplifying assumption---can lead to incorrect managerial decisions.Inventory/Production, Stock All...
We consider three problems on inventory, transportation and location in a supply chain. In Chapter 2...
This paper considers the problem of production control and stock rationing in a make-to-stock produc...
In this paper, we consider a make-to-stock production system with known exogenous replenishments and...
We consider a capacitated supply system that produces a single item that is demanded by several clas...
This paper considers the stock rationing problem of a single-item, make-to-stock production system w...
We consider a manufacturing facility that produces a single item that is demanded by several differe...
We consider a multiclass make-to-stock system served by a single server with adjustable capacity~ser...
In this paper, we study a system consisting of a manufacturer or supplier serving several retailers ...
We consider a single-item make-to-stock production system. The item is demanded by several classes o...
One of the most significant challenges facing operations managers is to determine how to optimally p...
We consider a distribution system composed of a limited-capacity supplier that serves a set of custo...
International audienceWe consider the problem of dynamically allocating production capacity between ...
Abstract in Undetermined Assume that in periods with stochastic demand remain until the next repleni...
Motivated by practices in modern supply chains, we consider capacity-inventory joint management for ...
We consider the optimal production and inventory control of an assemble-to-order system with m compo...
We consider three problems on inventory, transportation and location in a supply chain. In Chapter 2...
This paper considers the problem of production control and stock rationing in a make-to-stock produc...
In this paper, we consider a make-to-stock production system with known exogenous replenishments and...
We consider a capacitated supply system that produces a single item that is demanded by several clas...
This paper considers the stock rationing problem of a single-item, make-to-stock production system w...
We consider a manufacturing facility that produces a single item that is demanded by several differe...
We consider a multiclass make-to-stock system served by a single server with adjustable capacity~ser...
In this paper, we study a system consisting of a manufacturer or supplier serving several retailers ...
We consider a single-item make-to-stock production system. The item is demanded by several classes o...
One of the most significant challenges facing operations managers is to determine how to optimally p...
We consider a distribution system composed of a limited-capacity supplier that serves a set of custo...
International audienceWe consider the problem of dynamically allocating production capacity between ...
Abstract in Undetermined Assume that in periods with stochastic demand remain until the next repleni...
Motivated by practices in modern supply chains, we consider capacity-inventory joint management for ...
We consider the optimal production and inventory control of an assemble-to-order system with m compo...
We consider three problems on inventory, transportation and location in a supply chain. In Chapter 2...
This paper considers the problem of production control and stock rationing in a make-to-stock produc...
In this paper, we consider a make-to-stock production system with known exogenous replenishments and...