In order to achieve cooperation of multi-robots simultaneously, this paper presents an approach of Trajectory planning for two decoupled robots with six degrees of freedom (DOF) each to execute packing task. The Denavit-Hartenberg (D-H) representation is used to model robot links and solve the transformation matrices of each joint. The inverse kinematics solution using for a 6- DOF Robotic arm is presented, for given initial and final configurations of the robots, the robots are placed so that their workspaces overlap. An algorithm successfully finds a set of configurations to ensure, collision free transition from start to end configuration. Simulation and experiments based on 6-dof robot are carried out and the results verified the effect...
Includes bibliographical references (pages [89]-91)The research of coordinated motion control of two...
For the synthesis of manipulators and robots, an accurate analysis of the movements of the individua...
Three schemes are developed which are aimed at achieving cooperative control of multiple arm systems...
In order to achieve cooperation of multi-robots simultaneously, this paper presents an approach of T...
The kinematic control problem for a system of two cooperative 6-dof manipulators is addressed in thi...
This thesis presents two algorithms for the path planning of robot manipulators, specifically for mu...
Multi-robot systems have substantially increased capabilities over single-robot systems and can hand...
This paper formulates an algorithm for trajectory generation for two robots cooperating to perform a...
In this thesis we develop optimal trajectory planning algorithms for cooperative multi-manipulator s...
International audienceThis paper presents a cooperative coevolutionary ap...
International audienceThis paper studies the kinematic modeling and control of two cooperative manip...
This thesis addresses the problem of motion planning for cooperative robotic systems. The problem of...
In this paper, a dual system consisting of two 5 DOF (RRRRR) robot manipulators is considered as a c...
A new formulation for direct kinematics of a system of two manipulators is presented. This allows a ...
This thesis focuses on motion planning and motion control for two robots in a common workspace, whic...
Includes bibliographical references (pages [89]-91)The research of coordinated motion control of two...
For the synthesis of manipulators and robots, an accurate analysis of the movements of the individua...
Three schemes are developed which are aimed at achieving cooperative control of multiple arm systems...
In order to achieve cooperation of multi-robots simultaneously, this paper presents an approach of T...
The kinematic control problem for a system of two cooperative 6-dof manipulators is addressed in thi...
This thesis presents two algorithms for the path planning of robot manipulators, specifically for mu...
Multi-robot systems have substantially increased capabilities over single-robot systems and can hand...
This paper formulates an algorithm for trajectory generation for two robots cooperating to perform a...
In this thesis we develop optimal trajectory planning algorithms for cooperative multi-manipulator s...
International audienceThis paper presents a cooperative coevolutionary ap...
International audienceThis paper studies the kinematic modeling and control of two cooperative manip...
This thesis addresses the problem of motion planning for cooperative robotic systems. The problem of...
In this paper, a dual system consisting of two 5 DOF (RRRRR) robot manipulators is considered as a c...
A new formulation for direct kinematics of a system of two manipulators is presented. This allows a ...
This thesis focuses on motion planning and motion control for two robots in a common workspace, whic...
Includes bibliographical references (pages [89]-91)The research of coordinated motion control of two...
For the synthesis of manipulators and robots, an accurate analysis of the movements of the individua...
Three schemes are developed which are aimed at achieving cooperative control of multiple arm systems...