In this paper we investigate the problem of navigating, in a centralized manner, a team of unicycle-like robots in a known environment avoiding obstacles and, at the same time, steering them to patrol an assigned path in controlled formation. Such a goal is pursued by combining algorithms that use tools borrowed from algebraic geometry with some methods inspired by classical navigation functions. The former allows to automatically construct Lyapunov functions that certify the convergence to the desired formation and to the desired path, if obstacles are absent, while the latter allow to avoid collisions among agents and with fixed obstacles. Simulations are reported throughout all the paper to illustrate the theoretical results
Abstract Collision avoidance is an im-portant topic in multi-robot and multi-agent systems. While e...
This paper presents control algorithms for multiple non-holonomic mobile robots moving in formation....
Abstract — Inspired by the recent “Robot Sheepdog Project ” in the literature, in this paper a new m...
In this paper we investigate the problem of navigating, in a centralized manner, a team of unicycle-...
This paper investigates, in a centralized manner, the motion planning problem for a team of unicycle...
In this paper, we consider the problem of navigating a single unicycle-like robot, while avoiding ob...
In this paper, we addressed the problem of controlling the position of a group of unicycle-type robo...
This paper presents a methodology for designing (centralized) control laws which can provably steer ...
Tanner, Herbert G.This work presents a path planning methodology for designing centralized control l...
This paper presents a methodology for designing (centralized) control laws which can probably steer ...
Abstract: This paper addresses a formation navigation issue for a group of mobile robots passing thr...
Abstract — In this paper, we combine navigation function-like potential fields and constraint based ...
International audience— In this paper, the control problem for a group of mobile robots keeping a ge...
In this paper, we study the formation control problem for car-like mobile robots. A team of nonholon...
In this paper, we study the formation control problem for car-like mobile robots. A team of nonholo...
Abstract Collision avoidance is an im-portant topic in multi-robot and multi-agent systems. While e...
This paper presents control algorithms for multiple non-holonomic mobile robots moving in formation....
Abstract — Inspired by the recent “Robot Sheepdog Project ” in the literature, in this paper a new m...
In this paper we investigate the problem of navigating, in a centralized manner, a team of unicycle-...
This paper investigates, in a centralized manner, the motion planning problem for a team of unicycle...
In this paper, we consider the problem of navigating a single unicycle-like robot, while avoiding ob...
In this paper, we addressed the problem of controlling the position of a group of unicycle-type robo...
This paper presents a methodology for designing (centralized) control laws which can provably steer ...
Tanner, Herbert G.This work presents a path planning methodology for designing centralized control l...
This paper presents a methodology for designing (centralized) control laws which can probably steer ...
Abstract: This paper addresses a formation navigation issue for a group of mobile robots passing thr...
Abstract — In this paper, we combine navigation function-like potential fields and constraint based ...
International audience— In this paper, the control problem for a group of mobile robots keeping a ge...
In this paper, we study the formation control problem for car-like mobile robots. A team of nonholon...
In this paper, we study the formation control problem for car-like mobile robots. A team of nonholo...
Abstract Collision avoidance is an im-portant topic in multi-robot and multi-agent systems. While e...
This paper presents control algorithms for multiple non-holonomic mobile robots moving in formation....
Abstract — Inspired by the recent “Robot Sheepdog Project ” in the literature, in this paper a new m...