The problem of velocity tracking is considered essential in the consensus of multi-wheeled mobile robot systems to minimise the total operating time and enhance the system’s energy efficiency. This study presents a novel switched-system approach, consisting of bang-bang control and consensus formation algorithms, to address the problem of time-optimal velocity tracking of multiple wheeled mobile robots with nonholonomic constraints. This effort aims to achieve the desired velocity formation in the least time for any initial velocity conditions in a multiple mobile robot system. The main findings of this study are as follows: (i) by deriving the equation of motion along the specified path, the motor’s extremal conditions for a time-optimal t...
Les multiples applications liées aux systèmes multi-agents en réseau, tels que les satellites en for...
In this paper, we consider the problem of a group of autonomous mobile robots and a human moving c...
Ce travail s’inscrit dans le cadre de la commande d’un système multi agents/ multi véhicules. Cette ...
The problem of velocity tracking is considered essential in the consensus of multi-wheeled mobile ro...
The problem of velocity tracking is considered essential in the consensus of multi-wheeled mobile ro...
This paper investigates formation control of multiple nonholonomic differential drive wheeled mobile...
This paper addresses the hybrid consensus-based formation keeping problem for nonholonomic mobile ro...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
International audienceManaging multiple robots into a formation can be beneficial, especially in log...
Considered in this research is a framework for effective formation control of multirobot systems in ...
The motions of a formation of mobile robots along predetermined paths are optimized according to a t...
This paper proposes a new synchronous control law to perform multiple mobile robots trajectory track...
This paper proposes to design a chatter-free distributed control for multiagent nonholonomic wheeled...
AbstractThis paper extends the synchronization approach for formation control of multiple mobile rob...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
Les multiples applications liées aux systèmes multi-agents en réseau, tels que les satellites en for...
In this paper, we consider the problem of a group of autonomous mobile robots and a human moving c...
Ce travail s’inscrit dans le cadre de la commande d’un système multi agents/ multi véhicules. Cette ...
The problem of velocity tracking is considered essential in the consensus of multi-wheeled mobile ro...
The problem of velocity tracking is considered essential in the consensus of multi-wheeled mobile ro...
This paper investigates formation control of multiple nonholonomic differential drive wheeled mobile...
This paper addresses the hybrid consensus-based formation keeping problem for nonholonomic mobile ro...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
International audienceManaging multiple robots into a formation can be beneficial, especially in log...
Considered in this research is a framework for effective formation control of multirobot systems in ...
The motions of a formation of mobile robots along predetermined paths are optimized according to a t...
This paper proposes a new synchronous control law to perform multiple mobile robots trajectory track...
This paper proposes to design a chatter-free distributed control for multiagent nonholonomic wheeled...
AbstractThis paper extends the synchronization approach for formation control of multiple mobile rob...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
Les multiples applications liées aux systèmes multi-agents en réseau, tels que les satellites en for...
In this paper, we consider the problem of a group of autonomous mobile robots and a human moving c...
Ce travail s’inscrit dans le cadre de la commande d’un système multi agents/ multi véhicules. Cette ...