Robot manipulators have been extensively used in complex environments to complete diverse tasks. The teleoperation control based on human-like adaptivity in the robot manipulator is a growing and challenging field. This paper developed a disturbance-observer-based fuzzy control framework for a robot manipulator using an electromyography- (EMG-) driven neuromusculoskeletal (NMS) model. The motion intention (desired torque) was estimated by the EMG-driven NMS model with EMG signals and joint angles from the user. The desired torque was transmitted into the desired velocity for the robot manipulator system through an admittance filter. In the robot manipulator system, a fuzzy logic system, utilizing an integral Lyapunov function, was applied f...
The goal of this research is to develop theories, methods, and tools to understand the mechanisms of...
PhD ThesisThe use of robots to assist neurologists in Transcranial Magnetic Stimulation (TMS) has th...
In robot control, mathematical equations describing dynamic behaviors of robots are usually complica...
Robot manipulators have been extensively used in complex environments to complete diverse tasks. The...
The work reported in this thesis aims to design and develop a new neuro-fuzzy control system for rob...
Includes bibliographical references (pages [109]-110).This thesis provides an original design idea f...
Disturbance observer (DOB) based controller performs well in estimating and compensating for perturb...
Dynamic control, including robotic control, faces both the theoretical challenge of obtaining accura...
This paper presents a robust adaptive neural-fuzzy network control (RANFNC) system for an n-link rob...
A In this paper, an adaptive direct fuzzy control system is presented to control the robot manipulat...
Telerobot systems for advanced applications will require manipulators with redundant 'degrees of fre...
AbstractThis paper presents a new neuro-fuzzy controller for robot manipulators. First, an inductive...
In this paper, a robust-adaptive-fuzzy-neural-network controller (RAFNNs) bases on dead zone compens...
This paper presents a Multiple Adaptive Neuro-Fuzzy Inference System (MANFIS)-based method for regul...
The dynamics of robot manipulators are highly nonlinear with strong couplings existing between joint...
The goal of this research is to develop theories, methods, and tools to understand the mechanisms of...
PhD ThesisThe use of robots to assist neurologists in Transcranial Magnetic Stimulation (TMS) has th...
In robot control, mathematical equations describing dynamic behaviors of robots are usually complica...
Robot manipulators have been extensively used in complex environments to complete diverse tasks. The...
The work reported in this thesis aims to design and develop a new neuro-fuzzy control system for rob...
Includes bibliographical references (pages [109]-110).This thesis provides an original design idea f...
Disturbance observer (DOB) based controller performs well in estimating and compensating for perturb...
Dynamic control, including robotic control, faces both the theoretical challenge of obtaining accura...
This paper presents a robust adaptive neural-fuzzy network control (RANFNC) system for an n-link rob...
A In this paper, an adaptive direct fuzzy control system is presented to control the robot manipulat...
Telerobot systems for advanced applications will require manipulators with redundant 'degrees of fre...
AbstractThis paper presents a new neuro-fuzzy controller for robot manipulators. First, an inductive...
In this paper, a robust-adaptive-fuzzy-neural-network controller (RAFNNs) bases on dead zone compens...
This paper presents a Multiple Adaptive Neuro-Fuzzy Inference System (MANFIS)-based method for regul...
The dynamics of robot manipulators are highly nonlinear with strong couplings existing between joint...
The goal of this research is to develop theories, methods, and tools to understand the mechanisms of...
PhD ThesisThe use of robots to assist neurologists in Transcranial Magnetic Stimulation (TMS) has th...
In robot control, mathematical equations describing dynamic behaviors of robots are usually complica...