In this paper, adaptive formation control is addressed for a network of autonomous mobile robots in which there are only two leaders knowing the prescribed reference velocity while the others just play the role of followers. Assuming that each follower has only two neighbors to form a cascade interconnection, an adaptive formation control law is designed that allows each follower to achieve a specific triangular formation with its two neighbors without the need to know the velocity of its neighbors. With this scalable design approach, any expected geometric pattern of a group of n robots with two leaders can be realized by assigning an appropriate neighbor relationship and specifying a desired formation for each follower to reach. Both rigo...
In this paper, we study the problem of modeling and controlling leader-follower formation of mobile ...
A constructive method is presented to design cooperative controllers that force a group of N mobile ...
In this paper, we seek to expand framework developed to control a single nonholonomic mobile robot t...
In this paper, adaptive formation control is addressed for a network of autonomous mobile robots in ...
The study investigates the leader-follower formation control problem, for which the objective is to ...
This paper presents a framework for controlling groups of autonomous mobile robots to achieve predet...
This thesis develops a hybrid decentralized formation control framework to coordinate multiple mobil...
A control method for a team of multiple mobile robots performing leader-follower formation by implem...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
The paper deals with leader–follower formations of nonholonomic mobile robots, introducing a formati...
We present a distributed control law for a group of agents that solves the problem of formation cont...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
In this paper, we study the formation control problem for car-like mobile robots. A team of nonholo...
Formation control among a team of mobile robots is a common problem considered in multi-agent resear...
In this paper, we study the problem of modeling and controlling leader-follower formation of mobile ...
A constructive method is presented to design cooperative controllers that force a group of N mobile ...
In this paper, we seek to expand framework developed to control a single nonholonomic mobile robot t...
In this paper, adaptive formation control is addressed for a network of autonomous mobile robots in ...
The study investigates the leader-follower formation control problem, for which the objective is to ...
This paper presents a framework for controlling groups of autonomous mobile robots to achieve predet...
This thesis develops a hybrid decentralized formation control framework to coordinate multiple mobil...
A control method for a team of multiple mobile robots performing leader-follower formation by implem...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
The paper deals with leader–follower formations of nonholonomic mobile robots, introducing a formati...
We present a distributed control law for a group of agents that solves the problem of formation cont...
International audienceWe solve the formation-tracking control problem for mobile robots via linear c...
In this paper, we study the formation control problem for car-like mobile robots. A team of nonholo...
Formation control among a team of mobile robots is a common problem considered in multi-agent resear...
In this paper, we study the problem of modeling and controlling leader-follower formation of mobile ...
A constructive method is presented to design cooperative controllers that force a group of N mobile ...
In this paper, we seek to expand framework developed to control a single nonholonomic mobile robot t...