UK Research and Innovation, UKRI: EP/S033718/2, EP/T022493/1, EP/V00784XThis work is partially funded by UKRI and CHIST-ERA (HEAP: EP/S033718/2; Horizon: EP/T022493/1; TAS Hub: EP/V00784X).This paper proposes a machine learning (ML) approach to detect and resolve motion conflicts that occur between a human and a proactive robot during the execution of a physically collaborative task. We train a random forest classifier to distinguish between harmonious and conflicting human-robot interaction behaviors during object co-manipulation. Kinesthetic information generated through the teamwork is used to describe the interactive quality of collaboration. As such, we demonstrate that features derived from haptic (force/torque) data are sufficient to...
In this chapter we present results of our ongoing research on efficient and fluent human-robot colla...
In Physical Human-Robot Interaction (PHRI), humans and robots share the workspace and physically int...
Research on human-robot interactions has been driven by the increasing employment of robotic manipul...
The development of robots that can physically cooperate with humans has attained interest in the las...
The development of robots that can physically cooperate with humans has attained interest in the las...
Haptics provides a natural and intuitive channel of communication during the interaction of two huma...
Inferring human operators' actions in shared collaborative tasks, plays a crucial role in enhancing ...
Joint object transfer is a complex task, which is less structured and less specific than what is exi...
As humans, we are good at conveying intentions, working on shared goals. We coordinate actions, and ...
Intuitive and efficient physical human-robot collaboration relies on the mutual observability of the...
Technological progress increasingly envisions the use of robots interacting with people in everyday ...
This paper presents a method by which a robot can learn through observation to perform a collaborati...
The introduction of collaborative robots in industrial environments reinforces the need to provide t...
Physical Human-Human Interaction (pHHI) involves the use of multiple sensory modalities. Studies of ...
Haptic collaborative tasks are actions performed jointly by several partners, involving direct or in...
In this chapter we present results of our ongoing research on efficient and fluent human-robot colla...
In Physical Human-Robot Interaction (PHRI), humans and robots share the workspace and physically int...
Research on human-robot interactions has been driven by the increasing employment of robotic manipul...
The development of robots that can physically cooperate with humans has attained interest in the las...
The development of robots that can physically cooperate with humans has attained interest in the las...
Haptics provides a natural and intuitive channel of communication during the interaction of two huma...
Inferring human operators' actions in shared collaborative tasks, plays a crucial role in enhancing ...
Joint object transfer is a complex task, which is less structured and less specific than what is exi...
As humans, we are good at conveying intentions, working on shared goals. We coordinate actions, and ...
Intuitive and efficient physical human-robot collaboration relies on the mutual observability of the...
Technological progress increasingly envisions the use of robots interacting with people in everyday ...
This paper presents a method by which a robot can learn through observation to perform a collaborati...
The introduction of collaborative robots in industrial environments reinforces the need to provide t...
Physical Human-Human Interaction (pHHI) involves the use of multiple sensory modalities. Studies of ...
Haptic collaborative tasks are actions performed jointly by several partners, involving direct or in...
In this chapter we present results of our ongoing research on efficient and fluent human-robot colla...
In Physical Human-Robot Interaction (PHRI), humans and robots share the workspace and physically int...
Research on human-robot interactions has been driven by the increasing employment of robotic manipul...