Disturbance observer (DOB) based controller performs well in estimating and compensating for perturbation when the external or internal unknown disturbance is slowly time varying. However, to some extent, robot manipulators usually work in complex environment with high-frequency disturbance. Thereby, to enhance tracking performance in a teleoperation system, only traditional DOB technique is insufficient. In this paper, for the purpose of constructing a feasible teleoperation scheme, we develop a novel controller that contains a variable gain scheme to deal with fast-time varying perturbation, whose gain is adjusted linearly according to human surface electromyographic signals collected from Myo wearable armband. In addition, for tracking t...
This thesis introduces novel thinking and techniques to the control of robotic manipulation. In part...
Time delay, especially varying time delay, is always an important factor affecting the stability to ...
Teleoperation allows a human to control a robot to perform dexterous tasks in remote, dangerous, or ...
Disturbance observer (DOB) based controller performs well in estimating and compensating for perturb...
Robot manipulators have been extensively used in complex environments to complete diverse tasks. The...
To develop secure, natural and effective teleoperation, the perception of the slave plays a key role...
This paper proposes the application of an improved extended active observer (IEAOB) based teleoperat...
Teleoperation robot systems can help humans perform tasks in unstructured environments. However, non...
To obtain accurate trajectory tracking with robustness and faithful force feedback in a practical ap...
In this paper, an adaptive impedance control combined with disturbance observer (DOB) is developed f...
In this paper, a novel control scheme is developed for a teleoperation system, combining the radial ...
In this paper, a force sensorless control scheme based on neural networks (NNs) is developed for int...
The robotic technologies have been well developed recently in various fields, such as medical service...
This letter introduces a sensory augmentation technique enabling a contact robot to understand its h...
This paper presents a wearable upper body exoskeleton system with a model-based compensation control...
This thesis introduces novel thinking and techniques to the control of robotic manipulation. In part...
Time delay, especially varying time delay, is always an important factor affecting the stability to ...
Teleoperation allows a human to control a robot to perform dexterous tasks in remote, dangerous, or ...
Disturbance observer (DOB) based controller performs well in estimating and compensating for perturb...
Robot manipulators have been extensively used in complex environments to complete diverse tasks. The...
To develop secure, natural and effective teleoperation, the perception of the slave plays a key role...
This paper proposes the application of an improved extended active observer (IEAOB) based teleoperat...
Teleoperation robot systems can help humans perform tasks in unstructured environments. However, non...
To obtain accurate trajectory tracking with robustness and faithful force feedback in a practical ap...
In this paper, an adaptive impedance control combined with disturbance observer (DOB) is developed f...
In this paper, a novel control scheme is developed for a teleoperation system, combining the radial ...
In this paper, a force sensorless control scheme based on neural networks (NNs) is developed for int...
The robotic technologies have been well developed recently in various fields, such as medical service...
This letter introduces a sensory augmentation technique enabling a contact robot to understand its h...
This paper presents a wearable upper body exoskeleton system with a model-based compensation control...
This thesis introduces novel thinking and techniques to the control of robotic manipulation. In part...
Time delay, especially varying time delay, is always an important factor affecting the stability to ...
Teleoperation allows a human to control a robot to perform dexterous tasks in remote, dangerous, or ...