Add to ORKGIn this paper we present two alternative concepts to control general multi-item, multi-echelon systems under stochastic stationary demand for end items. Such systems consist of items that are assembled from other items and in turn are assembled into other items. Each assembly process involves a planned lead time. For such systems optimal control policies are unknown to-date. Therefore we resort to control concepts that at least enable an exact computation of the control parameters. The two alternative concepts represent two fundamentally different modeling concepts: an LP-based concept representing application of deterministic mathematical programming models in a rolling schedule context (the common practice in so-called Advanced Planning S...
In this paper we consider a divergent multi-echelon inventory system, e.g., a distribution system or...
In this research, an integrated planning model is developed that incorporates the key tactical consi...
Comparison of supply chain planning concepts for general multi-item, multi-echelon system
In this paper we present two alternative concepts to control general multi-item, multi-echelon syste...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Sloan School of Management, 2002.Includes bi...
This paper obtained the Highly Commended Award of the Supply Chain Management journal of Emerald Gro...
Effective multi-echelon inventory management has been widely recognized for minimizing the average t...
Purpose - The purpose of this paper is to explore the functionality of multistage programming approa...
Matching demand with supply effectively is a significant objective for supply chain inventory manage...
In this paper, we study inventory control problems arising in multi-echelon production/distribution ...
Thanks to the fierce competition and the globalization of markets as well as compa¬nies, supply chai...
There are two sources of complexity when dealing with production or distribution systems: an exogeno...
This paper models a supply chain problem and employs simulation-based optimization to analyze it. Th...
Devising manufacturing/distribution strategies for supply chains and determining their parameter val...
In this paper we present a methodology and simulation environment for solving multi-echelon supply c...
In this paper we consider a divergent multi-echelon inventory system, e.g., a distribution system or...
In this research, an integrated planning model is developed that incorporates the key tactical consi...
Comparison of supply chain planning concepts for general multi-item, multi-echelon system
In this paper we present two alternative concepts to control general multi-item, multi-echelon syste...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Sloan School of Management, 2002.Includes bi...
This paper obtained the Highly Commended Award of the Supply Chain Management journal of Emerald Gro...
Effective multi-echelon inventory management has been widely recognized for minimizing the average t...
Purpose - The purpose of this paper is to explore the functionality of multistage programming approa...
Matching demand with supply effectively is a significant objective for supply chain inventory manage...
In this paper, we study inventory control problems arising in multi-echelon production/distribution ...
Thanks to the fierce competition and the globalization of markets as well as compa¬nies, supply chai...
There are two sources of complexity when dealing with production or distribution systems: an exogeno...
This paper models a supply chain problem and employs simulation-based optimization to analyze it. Th...
Devising manufacturing/distribution strategies for supply chains and determining their parameter val...
In this paper we present a methodology and simulation environment for solving multi-echelon supply c...
In this paper we consider a divergent multi-echelon inventory system, e.g., a distribution system or...
In this research, an integrated planning model is developed that incorporates the key tactical consi...
Comparison of supply chain planning concepts for general multi-item, multi-echelon system