This article proposes a Bayesian method to acquire the estimation of human impedance and motion intention in a human-robot collaborative task. Combining with the prior knowledge of human stiffness, estimated stiffness obeying Gaussian distribution is obtained by Bayesian estimation, and human motion intention can be also estimated. An adaptive impedance control strategy is employed to track a target impedance model and neural networks are used to compensate for uncertainties in robotic dynamics. Comparative simulation results are carried out to verify the effectiveness of estimation method and emphasize the advantages of the proposed control strategy. The experiment, performed on Baxter robot platform, illustrates a good system performance
Human-robot collaboration (HRC) is one of the hot topics in the robotics community in the last years...
A framework for recognizing the human intention of human forearm is developed. For a cooperative tas...
Transferring human stiffness regulation strategies to robots enables them to effectively and efficie...
This article proposes a Bayesian method to acquire the estimation of human impedance and motion inte...
In this paper, adaptive impedance control is proposed for a robot collaborating with a human partner...
In this paper, an impedance control strategy is proposed for a rigid robot collaborating with human ...
In this paper, a complete framework for safe and efficient physical human-robot interaction (pHRI) is ...
© 2013 IEEE. In this paper, we propose a novel strategy for human-robot impedance mapping to realize...
In human-robot collaborative transportation and sawing tasks, the human operator physically interact...
International audienceIn this paper, a robot assistive Impedance and Admittance control methodology ...
Physical human-robot interactions (pHRIs) can improve robot autonomy and reduce physical demands on ...
Previous works have developed impedance control to increase safety and improve performance in contac...
Previous works have developed impedance control to increase safety and improve performance in contac...
One of the hallmarks of physical interaction between humans is haptic communication, i.e. an informa...
In tasks where the goal or configuration varies between iterations, human-robot interaction (HRI) ca...
Human-robot collaboration (HRC) is one of the hot topics in the robotics community in the last years...
A framework for recognizing the human intention of human forearm is developed. For a cooperative tas...
Transferring human stiffness regulation strategies to robots enables them to effectively and efficie...
This article proposes a Bayesian method to acquire the estimation of human impedance and motion inte...
In this paper, adaptive impedance control is proposed for a robot collaborating with a human partner...
In this paper, an impedance control strategy is proposed for a rigid robot collaborating with human ...
In this paper, a complete framework for safe and efficient physical human-robot interaction (pHRI) is ...
© 2013 IEEE. In this paper, we propose a novel strategy for human-robot impedance mapping to realize...
In human-robot collaborative transportation and sawing tasks, the human operator physically interact...
International audienceIn this paper, a robot assistive Impedance and Admittance control methodology ...
Physical human-robot interactions (pHRIs) can improve robot autonomy and reduce physical demands on ...
Previous works have developed impedance control to increase safety and improve performance in contac...
Previous works have developed impedance control to increase safety and improve performance in contac...
One of the hallmarks of physical interaction between humans is haptic communication, i.e. an informa...
In tasks where the goal or configuration varies between iterations, human-robot interaction (HRI) ca...
Human-robot collaboration (HRC) is one of the hot topics in the robotics community in the last years...
A framework for recognizing the human intention of human forearm is developed. For a cooperative tas...
Transferring human stiffness regulation strategies to robots enables them to effectively and efficie...