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
Unlike the industrial robotics domain where the workspace of machines and humans can be segmented, a...
In Physical Human-Robot Interaction (PHRI), humans and robots share the workspace and physically int...
Recent advancements in robotics are pushing toward a more strict interaction between machines and th...
This article investigates human-driven robots via physical interaction, which is enhanced by integra...
Recent studies on the physical interaction between humans have revealed their ability to read the pa...
Human ability to coordinate one's actions with other individuals to perform a task together is fasci...
This paper introduces a sensory augmentation technique enabling a contact robot to understand its hu...
This paper presents a control strategy for human–robot interaction with physical contact, recognizin...
International audienceThe success of robots in real-world environments is largely dependent on their...
The talk will address several implications resulting from the paradigm of putting the humans in the ...
Interaction control presents opportunities for contact robots physically interacting with their huma...
In this article, an iterative-learning-based robotic controller is developed, which aims at providin...
Effective and intuitive physical human robot interaction (pHRI) requires an understanding of how hum...
In this paper, we propose a hybrid framework using visual and force sensing for human-robot co-carry...
The need for users’ safety and technology acceptability has incredibly increased with the deployment...
Unlike the industrial robotics domain where the workspace of machines and humans can be segmented, a...
In Physical Human-Robot Interaction (PHRI), humans and robots share the workspace and physically int...
Recent advancements in robotics are pushing toward a more strict interaction between machines and th...
This article investigates human-driven robots via physical interaction, which is enhanced by integra...
Recent studies on the physical interaction between humans have revealed their ability to read the pa...
Human ability to coordinate one's actions with other individuals to perform a task together is fasci...
This paper introduces a sensory augmentation technique enabling a contact robot to understand its hu...
This paper presents a control strategy for human–robot interaction with physical contact, recognizin...
International audienceThe success of robots in real-world environments is largely dependent on their...
The talk will address several implications resulting from the paradigm of putting the humans in the ...
Interaction control presents opportunities for contact robots physically interacting with their huma...
In this article, an iterative-learning-based robotic controller is developed, which aims at providin...
Effective and intuitive physical human robot interaction (pHRI) requires an understanding of how hum...
In this paper, we propose a hybrid framework using visual and force sensing for human-robot co-carry...
The need for users’ safety and technology acceptability has incredibly increased with the deployment...
Unlike the industrial robotics domain where the workspace of machines and humans can be segmented, a...
In Physical Human-Robot Interaction (PHRI), humans and robots share the workspace and physically int...
Recent advancements in robotics are pushing toward a more strict interaction between machines and th...