This article investigates human-driven robots via physical interaction, which is enhanced by integrating the human partner's motion intention. A human motor control model is employed to estimate the human partner's motion intention. A system observer is developed to estimate the human's control input in this model, so that force sensing is not required. A robot controller is developed to incorporate the estimated human's motion intention, which makes the robot proactively follow the human partner's movements. Simulations and experiments on a physical robot are carried out to demonstrate the properties of our proposed controller
Human dynamic models are useful in design of physical human-robot and human-robot-environment intera...
The methods required to make humans and robots interact and collaborate are the subject of research ...
With the rapid development of Aerial Physical Interaction, the possibility to have aerial robots phy...
This article investigates human-driven robots via physical interaction, which is enhanced by integra...
Human ability to coordinate one's actions with other individuals to perform a task together is fasci...
This paper presents a control strategy for human–robot interaction with physical contact, recognizin...
To interact with humans, robots will possess a software architecture much more complete than current...
Unlike the industrial robotics domain where the workspace of machines and humans can be segmented, a...
To interact with humans, robots will possess a software architecture much more complete than current...
Effective and intuitive physical human robot interaction (pHRI) requires an understanding of how hum...
The extension of application domains of robotics from factories to human environments leads to imple...
Future space missions may be accomplished with greater efficiency through human-robot collaboration,...
This paper presents a complete motion control system for industrial manipulators, designed to maximi...
A seamless interaction requires two robotic behaviors: the leader role where the robot rejects the e...
A first step towards truly versatile robot assistants consists of building up experience with simple...
Human dynamic models are useful in design of physical human-robot and human-robot-environment intera...
The methods required to make humans and robots interact and collaborate are the subject of research ...
With the rapid development of Aerial Physical Interaction, the possibility to have aerial robots phy...
This article investigates human-driven robots via physical interaction, which is enhanced by integra...
Human ability to coordinate one's actions with other individuals to perform a task together is fasci...
This paper presents a control strategy for human–robot interaction with physical contact, recognizin...
To interact with humans, robots will possess a software architecture much more complete than current...
Unlike the industrial robotics domain where the workspace of machines and humans can be segmented, a...
To interact with humans, robots will possess a software architecture much more complete than current...
Effective and intuitive physical human robot interaction (pHRI) requires an understanding of how hum...
The extension of application domains of robotics from factories to human environments leads to imple...
Future space missions may be accomplished with greater efficiency through human-robot collaboration,...
This paper presents a complete motion control system for industrial manipulators, designed to maximi...
A seamless interaction requires two robotic behaviors: the leader role where the robot rejects the e...
A first step towards truly versatile robot assistants consists of building up experience with simple...
Human dynamic models are useful in design of physical human-robot and human-robot-environment intera...
The methods required to make humans and robots interact and collaborate are the subject of research ...
With the rapid development of Aerial Physical Interaction, the possibility to have aerial robots phy...