A nonlinear stiffness actuator (NSA) can achieve high torque/force resolution in the low stiffness range and high bandwidth in the high stiffness range. However, for the NSA, due to the imperfect performance of the elastic mechanical component such as friction, hysteresis, and unmeasurable energy consumption caused by former factors, it is more difficult to achieve accurate position control compared to the rigid actuator. Moreover, for a compliant robot with multiple degree of freedoms (DOFs) driven by NSAs, the influence of every NSA on the trajectory of the end effector is different and even coupled. Therefore, it is a challenge to implement precise trajectory control on a robot driven by such NSAs. In this paper, a control algorithm base...
According to a given performance criteria, perfect tracking is defined as the performance of zero tr...
In a flexible joint robotic manipulator, parametric variations and external disturbances result in m...
A simple robust compliant-motion-control technique is presented for a robot manipulator with nonline...
As industrial robots are characterized by flexibility, load variation, and unknown interference, it ...
International audienceIn this paper, a novel concept of robust Nonsingular Fast Terminal Sliding Mod...
Trajectory tracking control for a tendon driven series elastically actuated robotic arm is considere...
In robotic manipulators, feedback control of nonlinear systems with fast finite-time convergence is ...
AbstractIn this article it is shown how the end effector position of a single flexible-link robot ca...
An adaptive compliant control for robot manipulators is presented in this paper. The control law is ...
In most robot applications, the control of the manipulator’s end-effector along a specified desired ...
A novel robot controller is proposed, borrowing ideas from sliding mode and adaptive control. It is ...
Trajectory tracking is an essential requirement in robot manipulator movement and localization appli...
Compliant actuators are more advantageous than stiff actuators in some circumstances, for example, u...
This paper proposes an integral sliding mode for trajectory tracking control of robotic manipulators...
A novel robust trajectory/force controller is developed on the basis of a combination of sliding-mod...
According to a given performance criteria, perfect tracking is defined as the performance of zero tr...
In a flexible joint robotic manipulator, parametric variations and external disturbances result in m...
A simple robust compliant-motion-control technique is presented for a robot manipulator with nonline...
As industrial robots are characterized by flexibility, load variation, and unknown interference, it ...
International audienceIn this paper, a novel concept of robust Nonsingular Fast Terminal Sliding Mod...
Trajectory tracking control for a tendon driven series elastically actuated robotic arm is considere...
In robotic manipulators, feedback control of nonlinear systems with fast finite-time convergence is ...
AbstractIn this article it is shown how the end effector position of a single flexible-link robot ca...
An adaptive compliant control for robot manipulators is presented in this paper. The control law is ...
In most robot applications, the control of the manipulator’s end-effector along a specified desired ...
A novel robot controller is proposed, borrowing ideas from sliding mode and adaptive control. It is ...
Trajectory tracking is an essential requirement in robot manipulator movement and localization appli...
Compliant actuators are more advantageous than stiff actuators in some circumstances, for example, u...
This paper proposes an integral sliding mode for trajectory tracking control of robotic manipulators...
A novel robust trajectory/force controller is developed on the basis of a combination of sliding-mod...
According to a given performance criteria, perfect tracking is defined as the performance of zero tr...
In a flexible joint robotic manipulator, parametric variations and external disturbances result in m...
A simple robust compliant-motion-control technique is presented for a robot manipulator with nonline...