A class of production-distribution planning problems with non-stochastic uncertain demands is modeled as a dynamic game between two players controlling flows on a network with node and arc capacity constraints. Simple conditions are derived that have to be checked to determine which player wins the game. These conditions are then used to design a minimum cost network with the property that its feasible control strategies allow to meet the demand without violating the capacity constraints. The approach proposed in this paper offers a new framework to deal with production-distribution networks with uncertain demand, based on previous results concerning pursuit-evasion dynamic games. Although this approach (often referred to as set-theoretic c...
A distributed routing control algorithm for dynamic networks has recently been presented in the lite...
This paper studies the problem of optimal flow control in dynamic inventory systems. A dynamic optim...
Noncooperative game theory is used as a basis for analyzing, developing, and implementing decision, ...
This paper solves a data-driven control problem for a flow-based distribution network with two objec...
We develop a model based on stochastic discrete-time controlleddynamical systems in order to derive ...
© . This manuscript version is made available under the CC-BY-NC-ND 4.0 license http://creativecommo...
We consider a multi-inventory system with controlled flows and uncertain demands (disturbances) boun...
AbstractIn this paper, we study a production control problem in a competitive environment. Two firms...
In this paper, we propose a simultaneous approach to incorporate inventory control decisions--such a...
In this thesis, we investigate the optimal inflow control in hyperbolic supply systems with uncertai...
This paper solves a data-driven control problem for a flow-based distribution network with two objec...
In many production applications, plants that produce multiple products with random demands share the...
This thesis deals with the robust control of nonlinear systems subject to persistent bounded non-add...
The supply chain is a worldwide network of suppliers, factories, warehouses, distribution centers, a...
A distributed routing control algorithm for dynamic networks has recently been presented in the lite...
This paper studies the problem of optimal flow control in dynamic inventory systems. A dynamic optim...
Noncooperative game theory is used as a basis for analyzing, developing, and implementing decision, ...
This paper solves a data-driven control problem for a flow-based distribution network with two objec...
We develop a model based on stochastic discrete-time controlleddynamical systems in order to derive ...
© . This manuscript version is made available under the CC-BY-NC-ND 4.0 license http://creativecommo...
We consider a multi-inventory system with controlled flows and uncertain demands (disturbances) boun...
AbstractIn this paper, we study a production control problem in a competitive environment. Two firms...
In this paper, we propose a simultaneous approach to incorporate inventory control decisions--such a...
In this thesis, we investigate the optimal inflow control in hyperbolic supply systems with uncertai...
This paper solves a data-driven control problem for a flow-based distribution network with two objec...
In many production applications, plants that produce multiple products with random demands share the...
This thesis deals with the robust control of nonlinear systems subject to persistent bounded non-add...
The supply chain is a worldwide network of suppliers, factories, warehouses, distribution centers, a...
A distributed routing control algorithm for dynamic networks has recently been presented in the lite...
This paper studies the problem of optimal flow control in dynamic inventory systems. A dynamic optim...
Noncooperative game theory is used as a basis for analyzing, developing, and implementing decision, ...