This paper presents a distributed formation control method for a group of robots. The global objective of achieving a desired formation is obtained by dividing it into a set of local objectives which are achieved in a distributed manner. A basic repetitive pattern in the desired formation is identified and a corresponding unique differentiable task function is defined based on the position coordinates of the robots forming the pattern. Neighbor selection rules are designed for the robots in such a way that each robot is part of one or more such patterns. A singularity-robust task-priority inverse kinematics method is used to design velocity controllers to achieve these patterns. Since a robot can receive multiple control actions being part ...
This paper presents a distributed method for formation control of a homogeneous team of aerial or gr...
This paper mainly investigates formation control problems for a group of anonymous mobile robots wit...
This paper presents a dynamic region following formation control method for a swarm of robots. In th...
Abstract: In this paper a new behavior-based approach to formation control of a multirobot system is...
This paper investigates a distributed formation control problem for networked robots, with the globa...
This paper presents a control architecture for multi-robot systems. The proposed architecture has be...
Abstract—In this paper, the experimental validation of a be-havior-based technique for multirobot sy...
The paper presents an overview on the use of a behavior-based approach, namely the Null-Space-based ...
Abstract — In this paper the flocking problem for a multi-robot system, consisting in making the rob...
Abstract A new algorithm for the control of formations of mobile robots is pre-sented. Formations wi...
This thesis considers the formation and behavioural control problem of a multirobotsystem. A mathema...
The paper presents a study of a mobile multi-robot formation (MRF) control problem. The robots are n...
© 2014 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The utilization of team of robots working in a cooperative manner has huge benefits in moving large ...
This paper proposes a new algorithm for controlling a formation of multiple autonomous aerial vehicl...
This paper presents a distributed method for formation control of a homogeneous team of aerial or gr...
This paper mainly investigates formation control problems for a group of anonymous mobile robots wit...
This paper presents a dynamic region following formation control method for a swarm of robots. In th...
Abstract: In this paper a new behavior-based approach to formation control of a multirobot system is...
This paper investigates a distributed formation control problem for networked robots, with the globa...
This paper presents a control architecture for multi-robot systems. The proposed architecture has be...
Abstract—In this paper, the experimental validation of a be-havior-based technique for multirobot sy...
The paper presents an overview on the use of a behavior-based approach, namely the Null-Space-based ...
Abstract — In this paper the flocking problem for a multi-robot system, consisting in making the rob...
Abstract A new algorithm for the control of formations of mobile robots is pre-sented. Formations wi...
This thesis considers the formation and behavioural control problem of a multirobotsystem. A mathema...
The paper presents a study of a mobile multi-robot formation (MRF) control problem. The robots are n...
© 2014 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for a...
The utilization of team of robots working in a cooperative manner has huge benefits in moving large ...
This paper proposes a new algorithm for controlling a formation of multiple autonomous aerial vehicl...
This paper presents a distributed method for formation control of a homogeneous team of aerial or gr...
This paper mainly investigates formation control problems for a group of anonymous mobile robots wit...
This paper presents a dynamic region following formation control method for a swarm of robots. In th...