We consider optimal (s, S) policies with delivery time guarantees for production planning in one-machine manufacturing systems with early set-up. The machine produces one type of product and delivery time guarantee is offered to the customers for each unit of ordered product. The inter-arrival time of the demand and the processing time for one unit of product are assumed to be exponentially distributed. In a (s, S) policy, the machine will shut down when an inventory level of S is attained and once the inventory level drops to s, the machine will re-start. A set-up time is required for the machine. We model the set-up by the exponential distribution. We obtained an analytical form of the steady state probability distribution for the invento...
International audienceWe consider problems of inventory and admission control for make-to-stock prod...
International audienceIn this paper, a manufacturing system composed by a single-product machine, a ...
We address a stochastic single item production system in a make-to-order environment where customer ...
We consider optimal (s, S) policies with delivery time guarantees for production planning in manufac...
This paper studies optimal (s,S) policies for production planning in one-machine manufacturing syste...
International audienceThis paper studies optimal (s, S) policies for production planning in stochast...
This paper studies optimal (s, S) policies for production planning in manufacturing systems of unrel...
In this dissertation, we analyze three isolated problems found in production systems and investigate...
This dissertation studies two problems in the optimal control of discrete-state manufacturing system...
The classical inventory control policies assume that orders are paid for at the time of their receip...
International audienceWe analyze a W-configuration assemble-to-order system with random lead times, ...
We investigate the problem of determining optimal planned leadtimes in serial production systems in ...
We consider a model of a multiclass make-to-stock manufacturing system. External demand for each pro...
Allowing the production rate to be changed at any time, Chapter 4 investigates the optimal productio...
Consider an N stage serial production line where the processing times of orders may be random. Since...
International audienceWe consider problems of inventory and admission control for make-to-stock prod...
International audienceIn this paper, a manufacturing system composed by a single-product machine, a ...
We address a stochastic single item production system in a make-to-order environment where customer ...
We consider optimal (s, S) policies with delivery time guarantees for production planning in manufac...
This paper studies optimal (s,S) policies for production planning in one-machine manufacturing syste...
International audienceThis paper studies optimal (s, S) policies for production planning in stochast...
This paper studies optimal (s, S) policies for production planning in manufacturing systems of unrel...
In this dissertation, we analyze three isolated problems found in production systems and investigate...
This dissertation studies two problems in the optimal control of discrete-state manufacturing system...
The classical inventory control policies assume that orders are paid for at the time of their receip...
International audienceWe analyze a W-configuration assemble-to-order system with random lead times, ...
We investigate the problem of determining optimal planned leadtimes in serial production systems in ...
We consider a model of a multiclass make-to-stock manufacturing system. External demand for each pro...
Allowing the production rate to be changed at any time, Chapter 4 investigates the optimal productio...
Consider an N stage serial production line where the processing times of orders may be random. Since...
International audienceWe consider problems of inventory and admission control for make-to-stock prod...
International audienceIn this paper, a manufacturing system composed by a single-product machine, a ...
We address a stochastic single item production system in a make-to-order environment where customer ...