AbstractAs robotic systems transition from traditional setups to collaborative work spaces, the prevalence of physical Human Robot Interaction has risen in both industrial and domestic environments. A popular representation for robot behavior is movement primitives which learn, imitate, and generalize from expert demonstrations. While there are existing works in context-aware movement primitives, they are usually limited to contact-free human robot interactions. This paper presents physical Human Robot Interaction Primitives (pHRIP), which utilize only the interaction forces between the human user and robot to estimate user intent and generate the appropriate robot response during physical human robot interactions. The efficacy of pHRIP is ...
Human Robot Interaction (HRI) is the primary means of establishing natural and affective communicati...
The use of robots is predicted to become more and more widespread in everyday activities. For the mo...
Physical Human-Human Interaction (pHHI) involves the use of multiple sensory modalities. Studies of ...
Interaction control presents opportunities for contact robots physically interacting with their huma...
Effective and intuitive physical human robot interaction (pHRI) requires an understanding of how hum...
Robots are becoming integral parts of our environments, from factory floors to hospitals, and all th...
As demand for robots grows in non-industrial settings, there is a corresponding need to develop syst...
When humans and robots work in close proximity, physical interaction is inevitable. Traditionally, r...
The need for users’ safety and technology acceptability has incredibly increased with the deploymen...
The need for users’ safety and technology acceptability has incredibly increased with the deployment...
In this paper, we investigate physical human–robot interaction (PHRI) as an important extension of t...
As humans, we are good at conveying intentions, working on shared goals. We coordinate actions, and ...
Human-robot interaction (HRI) for mobile robots is still in its infancy. Most user interactions with...
As robotic devices are applied to problems beyond traditional manufacturing and industrial settings,...
Future space missions may be accomplished with greater efficiency through human-robot collaboration,...
Human Robot Interaction (HRI) is the primary means of establishing natural and affective communicati...
The use of robots is predicted to become more and more widespread in everyday activities. For the mo...
Physical Human-Human Interaction (pHHI) involves the use of multiple sensory modalities. Studies of ...
Interaction control presents opportunities for contact robots physically interacting with their huma...
Effective and intuitive physical human robot interaction (pHRI) requires an understanding of how hum...
Robots are becoming integral parts of our environments, from factory floors to hospitals, and all th...
As demand for robots grows in non-industrial settings, there is a corresponding need to develop syst...
When humans and robots work in close proximity, physical interaction is inevitable. Traditionally, r...
The need for users’ safety and technology acceptability has incredibly increased with the deploymen...
The need for users’ safety and technology acceptability has incredibly increased with the deployment...
In this paper, we investigate physical human–robot interaction (PHRI) as an important extension of t...
As humans, we are good at conveying intentions, working on shared goals. We coordinate actions, and ...
Human-robot interaction (HRI) for mobile robots is still in its infancy. Most user interactions with...
As robotic devices are applied to problems beyond traditional manufacturing and industrial settings,...
Future space missions may be accomplished with greater efficiency through human-robot collaboration,...
Human Robot Interaction (HRI) is the primary means of establishing natural and affective communicati...
The use of robots is predicted to become more and more widespread in everyday activities. For the mo...
Physical Human-Human Interaction (pHHI) involves the use of multiple sensory modalities. Studies of ...