Add to ORKGA time delay estimation based general framework for trajectory tracking control of robot manipulators is presented. The controller consists of three elements: a time‐delay‐estimation element that cancels continuous nonlinearities of robot dynamics, an injecting element that endows desired error dynamics, and a correcting element that suppresses residual time delay estimation error caused by discontinuous nonlinearities. Terminal sliding mode is used for the correcting element to pursue fast convergence of the time delay estimation error. Implementation of proposed control is easy because calculation of robot dynamics including friction is not required. Experimental results verify high‐accuracy trajectory tracking of indust...
An adaptive model-free control with nonsingular terminal sliding-mode (AMC-NTSM) is proposed for hig...
Control of closed-kinematic chain manipulators (CKCM) with uncertain dynamics is a tremendous challe...
This study proposes an innovative reinforcement learning-based time-delay control (RL-TDC) scheme to...
Abstract—Time-delay control has been verified as a simple and robust controller for robot manipulato...
Thanks to its simplicity and robustness, time delay control (TDC) has been recognized as a simple an...
This article proposes an enhanced adaptive time delay controller (ATDC) for robot manipulators subje...
This paper presents a practical adaptive time-delay control scheme (ATDC) and then applies it to rob...
In this paper, a novel adaptive robust controller is presented for high-accuracy tracking control of...
To improve the tracking precision of robot manipulators’ end-effector with uncertain kinematics and ...
A new robust compliant motion control technique is presented for robot manipulator with certain hard...
This paper concentrates on the predefined-time trajectory tracking for an uncertain robotic manipula...
A simple robust compliant-motion-control technique is presented for a robot manipulator with nonline...
To improve the trajectory tracking performance of a complex nonlinear robotic system, a velocity-fre...
This article presents a learning robust controller for high-quality position tracking control of rob...
The robot manipulators are used in network-based industrial units, and even homes, by expending a si...
An adaptive model-free control with nonsingular terminal sliding-mode (AMC-NTSM) is proposed for hig...
Control of closed-kinematic chain manipulators (CKCM) with uncertain dynamics is a tremendous challe...
This study proposes an innovative reinforcement learning-based time-delay control (RL-TDC) scheme to...
Abstract—Time-delay control has been verified as a simple and robust controller for robot manipulato...
Thanks to its simplicity and robustness, time delay control (TDC) has been recognized as a simple an...
This article proposes an enhanced adaptive time delay controller (ATDC) for robot manipulators subje...
This paper presents a practical adaptive time-delay control scheme (ATDC) and then applies it to rob...
In this paper, a novel adaptive robust controller is presented for high-accuracy tracking control of...
To improve the tracking precision of robot manipulators’ end-effector with uncertain kinematics and ...
A new robust compliant motion control technique is presented for robot manipulator with certain hard...
This paper concentrates on the predefined-time trajectory tracking for an uncertain robotic manipula...
A simple robust compliant-motion-control technique is presented for a robot manipulator with nonline...
To improve the trajectory tracking performance of a complex nonlinear robotic system, a velocity-fre...
This article presents a learning robust controller for high-quality position tracking control of rob...
The robot manipulators are used in network-based industrial units, and even homes, by expending a si...
An adaptive model-free control with nonsingular terminal sliding-mode (AMC-NTSM) is proposed for hig...
Control of closed-kinematic chain manipulators (CKCM) with uncertain dynamics is a tremendous challe...
This study proposes an innovative reinforcement learning-based time-delay control (RL-TDC) scheme to...