We present a constrained optimization method for multi-robot formation control in dynamic environments, where the robots adjust the parameters of the formation, such as size and three-dimensional orientation, to avoid collisions with static and moving obstacles, and to make progress towards their goal. We describe two variants of the algorithm, one for local motion planning and one for global path planning. The local planner first computes a large obstacle-free convex region in a neighborhood of the robots, embedded in position-time space. Then, the parameters of the formation are optimized therein by solving a constrained optimization, via sequential convex programming. The robots navigate towards the optimized formation with individual co...
International audienceThis paper deals with the navigation in formation of a group of mobile robots....
Multi-mobile robot systems show great advantages over one single robot in many applications. However...
and control of formations of multiple unmanned ground vehicles to traverse between goal points in a ...
We present a constrained optimization method for multi-robot formation control in dynamic environmen...
This paper presents a distributed method for formation control of a homogeneous team of aerial or gr...
An exciting application of robots is using multi-robot systems to accomplish complex tasks. Harnessi...
This paper presents a distributed method for navigating a team of robots in formation in 2D and 3D e...
An exciting application of robots is using multi-robot systems to accomplish complex tasks. Harnessi...
Multi-robot formations have numerous applications, such as cooperative object transportation in smar...
Robots can augment and even replace humans in dangerous environments, such as search and rescue and ...
Large teams of mobile robots have an unprecedented potential to assist humans in a number of roles r...
Quadrotor UAV's have become extremely popular over the last decade, as they combine great agility wi...
International audience— In this paper, the control problem for a group of mobile robots keeping a ge...
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 audienceThis paper deals with the navigation in formation of a group of mobile robots....
Multi-mobile robot systems show great advantages over one single robot in many applications. However...
and control of formations of multiple unmanned ground vehicles to traverse between goal points in a ...
We present a constrained optimization method for multi-robot formation control in dynamic environmen...
This paper presents a distributed method for formation control of a homogeneous team of aerial or gr...
An exciting application of robots is using multi-robot systems to accomplish complex tasks. Harnessi...
This paper presents a distributed method for navigating a team of robots in formation in 2D and 3D e...
An exciting application of robots is using multi-robot systems to accomplish complex tasks. Harnessi...
Multi-robot formations have numerous applications, such as cooperative object transportation in smar...
Robots can augment and even replace humans in dangerous environments, such as search and rescue and ...
Large teams of mobile robots have an unprecedented potential to assist humans in a number of roles r...
Quadrotor UAV's have become extremely popular over the last decade, as they combine great agility wi...
International audience— In this paper, the control problem for a group of mobile robots keeping a ge...
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 audienceThis paper deals with the navigation in formation of a group of mobile robots....
Multi-mobile robot systems show great advantages over one single robot in many applications. However...
and control of formations of multiple unmanned ground vehicles to traverse between goal points in a ...