Recent studies on the physical interaction between humans have revealed their ability to read the partner's motion plan and use it to improve one's own control. Inspired by these results, we develop an intention assimilation controller (IAC) that enables a contact robot to estimate the human's virtual target from the interaction force, and combine it with its own target to plan motion. While the virtual target depends on the control gains assumed for the human, we show that this does not affect the stability of the human-robot system, and our novel scheme covers a continuum of interaction behaviours from assistance to competition. Simulations and experiments illustrate how the IAC can assist the human or compete with them to prevent collisi...
Intuitive and efficient physical human-robot collaboration relies on the mutual observability of the...
Co-existence of human and robot in the same workspace requires the robot to perform robot tasks such...
This thesis uncovers the mechanism of interaction between human partners in continuous contact. Dur...
Interaction control presents opportunities for contact robots physically interacting with their huma...
Human ability to coordinate one's actions with other individuals to perform a task together is fasci...
This article investigates human-driven robots via physical interaction, which is enhanced by integra...
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 last decades have seen a surge of robots working in contact with humans. However, until now thes...
Physical Human-Human Interaction (pHHI) involves the use of multiple sensory modalities. Studies of ...
In this work, a human motion intention prediction method based on an autoregressive (AR) model for t...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
Effective and intuitive physical human robot interaction (pHRI) requires an understanding of how hum...
Abstract—In many future joint-action scenarios, humans and robots will have to interact physically i...
Intuitive and efficient physical human-robot collaboration relies on the mutual observability of the...
Co-existence of human and robot in the same workspace requires the robot to perform robot tasks such...
This thesis uncovers the mechanism of interaction between human partners in continuous contact. Dur...
Interaction control presents opportunities for contact robots physically interacting with their huma...
Human ability to coordinate one's actions with other individuals to perform a task together is fasci...
This article investigates human-driven robots via physical interaction, which is enhanced by integra...
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 last decades have seen a surge of robots working in contact with humans. However, until now thes...
Physical Human-Human Interaction (pHHI) involves the use of multiple sensory modalities. Studies of ...
In this work, a human motion intention prediction method based on an autoregressive (AR) model for t...
Humans can skilfully use tools and interact with the environment by adapting their movement trajecto...
Effective and intuitive physical human robot interaction (pHRI) requires an understanding of how hum...
Abstract—In many future joint-action scenarios, humans and robots will have to interact physically i...
Intuitive and efficient physical human-robot collaboration relies on the mutual observability of the...
Co-existence of human and robot in the same workspace requires the robot to perform robot tasks such...
This thesis uncovers the mechanism of interaction between human partners in continuous contact. Dur...