Abstract—We address the problem of controlling a formation of robots in a cluttered environment. Instead of explicitly controlling the relative positions between the robots and the environment, we construct a lower-dimensional abstraction of the group that establishes a boundary for the group. We then synthesize feedback controllers that allow the abstracted group to navigate a two-dimensional environment to a desired goal position, while automatically adapting the shape of the boundary as well as the position and orientation of the group to avoid collisions between the virtual boundary and the environment. In contrast to previous approaches, we address the planning and control problems concurrently and are naturally able to establish bound...
A distributed control mechanism for ground moving nonholonomic robots is proposed. It enables a grou...
In this paper we investigate the problem of navigating, in a centralized manner, a team of unicycle-...
Abstract — We present a decentralized approach to multi-robot manipulation where the team of robots ...
Abstract. We address the synthesis of controllers for groups of multi-robot systems that enable them...
Abstract. This paper addresses the design of simple robot behaviors that realize emergent group beha...
Robots can augment and even replace humans in dangerous environments, such as search and rescue and ...
This paper addresses the general problem of controlling a large number of robots required to move as...
Abstract — This paper shows how a large number of robots can be coordinated by designing control law...
The presented solution is a decentralized control system with a minimal informational interaction be...
International audience— In this paper, the control problem for a group of mobile robots keeping a ge...
Abstract—We propose a method for synthesizing decentralized feedback controllers for a team of multi...
We address the challenge of controlling a team of robots through a complex environment, a capability...
A multilayer scheme is here proposed to implement coordinated control of a group of mobile robots. S...
Abstract—We propose a method for synthesizing decentral-ized feedback controllers for a team of mult...
Robots can augment and even replace humans in dangerous environments, such as search and rescue and ...
A distributed control mechanism for ground moving nonholonomic robots is proposed. It enables a grou...
In this paper we investigate the problem of navigating, in a centralized manner, a team of unicycle-...
Abstract — We present a decentralized approach to multi-robot manipulation where the team of robots ...
Abstract. We address the synthesis of controllers for groups of multi-robot systems that enable them...
Abstract. This paper addresses the design of simple robot behaviors that realize emergent group beha...
Robots can augment and even replace humans in dangerous environments, such as search and rescue and ...
This paper addresses the general problem of controlling a large number of robots required to move as...
Abstract — This paper shows how a large number of robots can be coordinated by designing control law...
The presented solution is a decentralized control system with a minimal informational interaction be...
International audience— In this paper, the control problem for a group of mobile robots keeping a ge...
Abstract—We propose a method for synthesizing decentralized feedback controllers for a team of multi...
We address the challenge of controlling a team of robots through a complex environment, a capability...
A multilayer scheme is here proposed to implement coordinated control of a group of mobile robots. S...
Abstract—We propose a method for synthesizing decentral-ized feedback controllers for a team of mult...
Robots can augment and even replace humans in dangerous environments, such as search and rescue and ...
A distributed control mechanism for ground moving nonholonomic robots is proposed. It enables a grou...
In this paper we investigate the problem of navigating, in a centralized manner, a team of unicycle-...
Abstract — We present a decentralized approach to multi-robot manipulation where the team of robots ...