In order to achieve effective physical human–robot interaction, human dynamic characteristics needs to be considered in admittance control. This paper proposes a variable admittance control method for physical human–robot interaction based on trajectory prediction of human hand motion. By predicting the moving direction of the robot end tool under human guidance, the admittance control parameters are adjusted to reduce the interaction force. The end tool trajectory of the robot under human guidance is used for offline training of long and short-term memory neural network to generate trajectory predictors. Then the trajectory predictors are used in variable admittance control to predict the trajectory and movement direction of the robot end ...
In physical human-robot interaction, the coexistence of robots and humans in the same workspace requ...
In this paper, physical human-robot interaction (pHRI) approach is presented for the developed robot...
A recent development for programming industrial robotic manipulators is the interactive teaching of ...
In this paper we address variable admittance control for human-robot physical interaction in manual ...
Robots are currently used in some applications to enhance human performance and it is expected that ...
In this paper, an admittance adaptation method has been developed for robots to interact with unknow...
Admittance control allows a desired dynamic behavior to be reproduced on a non-backdrivable manipula...
International audienceIn this paper, a robot assistive Impedance and Admittance control methodology ...
In this paper, a force sensorless control scheme based on neural networks (NNs) is developed for int...
© 2013 IEEE. In this paper, we propose a novel strategy for human-robot impedance mapping to realize...
Admittance controllers have been widely implemented in physical human/robot interaction (pHRI). The ...
Admittance control is a widely used approach for guaranteeing a compliant behavior of the robot in p...
In physical human-robot interaction, the coexistence of robots and humans in the same workspace requ...
In this paper, physical human-robot interaction (pHRI) approach is presented for the developed robot...
A recent development for programming industrial robotic manipulators is the interactive teaching of ...
In this paper we address variable admittance control for human-robot physical interaction in manual ...
Robots are currently used in some applications to enhance human performance and it is expected that ...
In this paper, an admittance adaptation method has been developed for robots to interact with unknow...
Admittance control allows a desired dynamic behavior to be reproduced on a non-backdrivable manipula...
International audienceIn this paper, a robot assistive Impedance and Admittance control methodology ...
In this paper, a force sensorless control scheme based on neural networks (NNs) is developed for int...
© 2013 IEEE. In this paper, we propose a novel strategy for human-robot impedance mapping to realize...
Admittance controllers have been widely implemented in physical human/robot interaction (pHRI). The ...
Admittance control is a widely used approach for guaranteeing a compliant behavior of the robot in p...
In physical human-robot interaction, the coexistence of robots and humans in the same workspace requ...
In this paper, physical human-robot interaction (pHRI) approach is presented for the developed robot...
A recent development for programming industrial robotic manipulators is the interactive teaching of ...