The paper presents a fast online predictive method to solve the task-priority differential inverse kinematics of redundant manipulators under kinematic constraints. It implements a task-scaling technique to preserve the desired geometrical task, when the trajectory is infeasible for the robot capabilities. Simulation results demonstrate the effectiveness of the methodology
Standard kinematics prioritized task based motion control solutions do not take into account the phy...
A repeatable inverse kinematic task in robot manipulators consists in finding a loop (cyclic traject...
Redundant manipulators have some advantages when compared with classical arms because they allow a t...
The paper presents a fast online predictive method to solve the task-priority differential inverse k...
The paper presents a fast online predictive method to solve the task-priority differential inverse k...
In this paper, we analyze the effectiveness of a predictive redundancy resolution for constrained ma...
This article presents new closed-loop schemes for solving the inverse kinematics of constrained redu...
In this paper, we analyze the effectiveness of a predictive redundancy resolution for constrained ma...
Kinematically-redundant manipulators present considerable difficulties, especially from the view of ...
In this paper, we present a tentatively comprehensive tutorial report of the most recent literature ...
Trajectory scaling techniques adapt online the robot timing law to preserve the desired geometric pa...
Trajectory scaling techniques are able to adapt online the robot motion to preserve the desired geom...
In this paper, we propose a new method for the online redundancy resolution of robot manipulators, w...
Abstract—We present an efficient method for addressing online the inversion of differential task kin...
International audienceThis paper presents and defines a new design optimization method for kinematic...
Standard kinematics prioritized task based motion control solutions do not take into account the phy...
A repeatable inverse kinematic task in robot manipulators consists in finding a loop (cyclic traject...
Redundant manipulators have some advantages when compared with classical arms because they allow a t...
The paper presents a fast online predictive method to solve the task-priority differential inverse k...
The paper presents a fast online predictive method to solve the task-priority differential inverse k...
In this paper, we analyze the effectiveness of a predictive redundancy resolution for constrained ma...
This article presents new closed-loop schemes for solving the inverse kinematics of constrained redu...
In this paper, we analyze the effectiveness of a predictive redundancy resolution for constrained ma...
Kinematically-redundant manipulators present considerable difficulties, especially from the view of ...
In this paper, we present a tentatively comprehensive tutorial report of the most recent literature ...
Trajectory scaling techniques adapt online the robot timing law to preserve the desired geometric pa...
Trajectory scaling techniques are able to adapt online the robot motion to preserve the desired geom...
In this paper, we propose a new method for the online redundancy resolution of robot manipulators, w...
Abstract—We present an efficient method for addressing online the inversion of differential task kin...
International audienceThis paper presents and defines a new design optimization method for kinematic...
Standard kinematics prioritized task based motion control solutions do not take into account the phy...
A repeatable inverse kinematic task in robot manipulators consists in finding a loop (cyclic traject...
Redundant manipulators have some advantages when compared with classical arms because they allow a t...