International audienceTimed Event Graphs (TEGs) constitute a subclass of timed Petri nets that model synchronization and delay phenomena, but not conflict or choice. In a suitable mathematical framework (idempotent semirings such as the min-plus algebra), the temporal evolution of TEGs can be described by a set of linear equations. Recently, a method has been proposed for the optimal control of TEGs that share one or more resources based on a prespecified priority policy.In this paper, we aim at finding a solution on how to deal with disturbances in TEGs with sharedresources, which is not possible under the current feedforward-based approaches
Modern times have seen an increasing use of networked control systems, in which plants and controlle...
Abstract This paper deals with the model-reference control of timed event graphs using the dioid alg...
In this paper, we study Discrete Events Dynamic Systems (DEDS) that can be modeled by a linear repre...
International audienceTimed Event Graphs (TEGs) constitute a subclass of timed Petri nets that model...
International audienceTimed event graphs (TEGs) are a subclass of timed Petri nets whose dynamics is...
International audienceIt is a well-known fact that the dynamics of timed event graphs (TEGs), a subc...
Timed event graphs (TEGs) are a subclass of timed Petri nets that model synchronization and delay ph...
summary:This paper deals with output feedback synthesis for Timed Event Graphs (TEG) in dioid algebr...
Timed Event Graphs (TEGs) and their weighted extension WTEGs are particular timed Discrete Event Sys...
The class of Timed Event Graphs (TEGs) has widely been studied for the last 30 years thanks to an al...
International audienceA class of timed discrete event systems can be modeled by using Timed-Event Gr...
In this paper, the aim is to make the predictive control of a plant described by a Timed Event Graph...
The topic of this paper is modeling and control of timed discrete event systems in a dioid framework...
International audiencePetri nets are a powerful and recognized formalism for the modeling and the an...
This paper develops a controller synthesis method for distributed LQG control problems under output-...
Modern times have seen an increasing use of networked control systems, in which plants and controlle...
Abstract This paper deals with the model-reference control of timed event graphs using the dioid alg...
In this paper, we study Discrete Events Dynamic Systems (DEDS) that can be modeled by a linear repre...
International audienceTimed Event Graphs (TEGs) constitute a subclass of timed Petri nets that model...
International audienceTimed event graphs (TEGs) are a subclass of timed Petri nets whose dynamics is...
International audienceIt is a well-known fact that the dynamics of timed event graphs (TEGs), a subc...
Timed event graphs (TEGs) are a subclass of timed Petri nets that model synchronization and delay ph...
summary:This paper deals with output feedback synthesis for Timed Event Graphs (TEG) in dioid algebr...
Timed Event Graphs (TEGs) and their weighted extension WTEGs are particular timed Discrete Event Sys...
The class of Timed Event Graphs (TEGs) has widely been studied for the last 30 years thanks to an al...
International audienceA class of timed discrete event systems can be modeled by using Timed-Event Gr...
In this paper, the aim is to make the predictive control of a plant described by a Timed Event Graph...
The topic of this paper is modeling and control of timed discrete event systems in a dioid framework...
International audiencePetri nets are a powerful and recognized formalism for the modeling and the an...
This paper develops a controller synthesis method for distributed LQG control problems under output-...
Modern times have seen an increasing use of networked control systems, in which plants and controlle...
Abstract This paper deals with the model-reference control of timed event graphs using the dioid alg...
In this paper, we study Discrete Events Dynamic Systems (DEDS) that can be modeled by a linear repre...