In this paper, an adaptive Jacobian and neural network based position/force tracking impedance control scheme is proposed for controlling robotic systems with uncertainties and external disturbances. To achieve precise force control performance indirectly by using the position tracking, the control scheme is divided into two parts: the outer-loop force impedance control and the inner-loop position tracking control. In the outer-loop, an improved impedance controller, which combines the traditional impedance relationship with the PID-like scheme, is designed to eliminate the force tracking error quickly and to reduce the force overshoot effectively. In this way, the satisfied force tracking performance can be achieved when the manipulator co...
This paper presents a robust adaptive impedance control for robot manipulators. The robust adaptive ...
Abstract — Impedance control is one of the most effective methods for controlling the interaction be...
The main impedance control schemes in the task space require accurate knowledge of the kinematics an...
This study proposes an adaptive impedance force control using fuzzy neural networks (FNNs) for robot...
This thesis presents advanced force control strategies for robotic manipulators in the presence of n...
lmpedance control is one of the most effective controlmethods for the manipulators in contact with t...
In this paper, neural network force control is present-ed. Under the framework of impedance control,...
In this paper, a force sensorless control scheme based on neural networks (NNs) is developed for int...
Abstract: This paper presents a novel impedance control approach for a robot manipulator and analyze...
The problem of assistive human–robot interaction (HRI) with unknown impedance parameters is nontrivi...
[[abstract]]An adaptive neural-network tracking control with a guaranteed H infinity performance is ...
In this paper, an impedance control strategy is proposed for a rigid robot collaborating with human ...
Abstract—An adaptive neural-network tracking control with a guaranteedH1 performance is proposed for...
The robot manipulators must have capability of controlling mechanical interaction with objects which...
This article presents a novel biomimetic force and impedance adaption framework based on the broad l...
This paper presents a robust adaptive impedance control for robot manipulators. The robust adaptive ...
Abstract — Impedance control is one of the most effective methods for controlling the interaction be...
The main impedance control schemes in the task space require accurate knowledge of the kinematics an...
This study proposes an adaptive impedance force control using fuzzy neural networks (FNNs) for robot...
This thesis presents advanced force control strategies for robotic manipulators in the presence of n...
lmpedance control is one of the most effective controlmethods for the manipulators in contact with t...
In this paper, neural network force control is present-ed. Under the framework of impedance control,...
In this paper, a force sensorless control scheme based on neural networks (NNs) is developed for int...
Abstract: This paper presents a novel impedance control approach for a robot manipulator and analyze...
The problem of assistive human–robot interaction (HRI) with unknown impedance parameters is nontrivi...
[[abstract]]An adaptive neural-network tracking control with a guaranteed H infinity performance is ...
In this paper, an impedance control strategy is proposed for a rigid robot collaborating with human ...
Abstract—An adaptive neural-network tracking control with a guaranteedH1 performance is proposed for...
The robot manipulators must have capability of controlling mechanical interaction with objects which...
This article presents a novel biomimetic force and impedance adaption framework based on the broad l...
This paper presents a robust adaptive impedance control for robot manipulators. The robust adaptive ...
Abstract — Impedance control is one of the most effective methods for controlling the interaction be...
The main impedance control schemes in the task space require accurate knowledge of the kinematics an...