Add to ORKGPreprintWe propose and demonstrate how attractor dynamics can be used to design and implement a distributed dynamic control architecture that enables a team of two robots, without force/torque sensors and equipped solely with low-level sensors, to carry a long object and simultaneously avoid obstacles. The explicit required communication between robots is minimal. The robots have no prior knowledge of their environment. Experimental results in indoor environments show that if parameter values are chosen within reasonable ranges then the overall system works quite well even in cluttered environments. The robots’ behavior is stable and the generated trajectories are smooth
We address the challenge of controlling a team of robots through a complex environment, a capability...
A distributed control mechanism for ground moving nonholonomic robots is proposed. It enables a grou...
For a matter of efficiency and robustness, it is often better to use a team of robots instead of a s...
Abstract: We propose and demonstrate how attractor dynamics can be used to design and implement a di...
In this paper dynamical systems theory is used as a theoretical language and tool to design a distri...
Dynamical systems theory is used here as a theoretical language and tool to design a distributed co...
Dynamical systems theory in this work is used as a theoretical language and tool to design a distri...
Dynamical systems theory is used as a theoretical language and tool to design a distributed control...
We present a distributed architecture for teams of two autonomous mobile robots that act in coordina...
We present a distributed leader-helper architecture for teams of two autonomous mobile robots that j...
Several tasks cannot be accomplished by a single robot working in isolation. Obvious examples includ...
We address the problem of coordinating two non-holonomic mobile robots that move in formation while...
This paper addresses the problem of cooperative object transportation in a constrained workspace inv...
Communication in multi-robot teams has, historically, been a means to improve control and perception...
AbstractThis paper presents an application of multi-robot system using nonholonomic wheeled mobile r...
We address the challenge of controlling a team of robots through a complex environment, a capability...
A distributed control mechanism for ground moving nonholonomic robots is proposed. It enables a grou...
For a matter of efficiency and robustness, it is often better to use a team of robots instead of a s...
Abstract: We propose and demonstrate how attractor dynamics can be used to design and implement a di...
In this paper dynamical systems theory is used as a theoretical language and tool to design a distri...
Dynamical systems theory is used here as a theoretical language and tool to design a distributed co...
Dynamical systems theory in this work is used as a theoretical language and tool to design a distri...
Dynamical systems theory is used as a theoretical language and tool to design a distributed control...
We present a distributed architecture for teams of two autonomous mobile robots that act in coordina...
We present a distributed leader-helper architecture for teams of two autonomous mobile robots that j...
Several tasks cannot be accomplished by a single robot working in isolation. Obvious examples includ...
We address the problem of coordinating two non-holonomic mobile robots that move in formation while...
This paper addresses the problem of cooperative object transportation in a constrained workspace inv...
Communication in multi-robot teams has, historically, been a means to improve control and perception...
AbstractThis paper presents an application of multi-robot system using nonholonomic wheeled mobile r...
We address the challenge of controlling a team of robots through a complex environment, a capability...
A distributed control mechanism for ground moving nonholonomic robots is proposed. It enables a grou...
For a matter of efficiency and robustness, it is often better to use a team of robots instead of a s...