Often two people must work together physically on a common task, such as lifting and positioning a long board, or, in our model experimental system, turning a two-handled crank. Such tasks involve communication between the people, mediated by the task kinematics and dynamics: each person feels forces and motions produced by the other and derives some meaning from them. Tasks may include a degree of competition: the two people may not have exactly the same goal in mind, and must negotiate a compromise. Understanding human-human communication is important in designing robots for interaction with humans, and for robots that provide powered assistance for human-human tasks (such as physical therapy). In this paper we describe early experiments ...
Abstract — Joint-action is one of the key research areas in robotics and especially important in phy...
The use of robots is predicted to become more and more widespread in everyday activities. For the mo...
This document is an extended version of the one published in the proceedings of RoboPhilosophy confe...
Often two people must work together physically on a common task, such as lifting and positioning a l...
Often two people must work together physically on a common task, such as lifting and positioning a l...
Abstract This chapter examines the physical interaction between two humans and between a human and a...
This chapter examines the physical interaction between two humans and between a human and a robot si...
In many everyday tasks two people interact through force and motion. Examples include lifting and po...
An understanding of how two people anticipate, adapt, and react to each other’s forces and motions c...
In physical and occupational therapy two people interact through force and motion. Other common exam...
This research studies the way in which humans and robots interact with each other. When two humans a...
Abstract—Machines might physically interact with humans more smoothly if we better understood the su...
Abstract—In physical and occupational therapy two people interact through force and motion. Other co...
Humans often work together on common tasks, such as lifting and positioning long boards, or moving h...
Machines might physically interact with humans more smoothly if we better understood the subtlety of...
Abstract — Joint-action is one of the key research areas in robotics and especially important in phy...
The use of robots is predicted to become more and more widespread in everyday activities. For the mo...
This document is an extended version of the one published in the proceedings of RoboPhilosophy confe...
Often two people must work together physically on a common task, such as lifting and positioning a l...
Often two people must work together physically on a common task, such as lifting and positioning a l...
Abstract This chapter examines the physical interaction between two humans and between a human and a...
This chapter examines the physical interaction between two humans and between a human and a robot si...
In many everyday tasks two people interact through force and motion. Examples include lifting and po...
An understanding of how two people anticipate, adapt, and react to each other’s forces and motions c...
In physical and occupational therapy two people interact through force and motion. Other common exam...
This research studies the way in which humans and robots interact with each other. When two humans a...
Abstract—Machines might physically interact with humans more smoothly if we better understood the su...
Abstract—In physical and occupational therapy two people interact through force and motion. Other co...
Humans often work together on common tasks, such as lifting and positioning long boards, or moving h...
Machines might physically interact with humans more smoothly if we better understood the subtlety of...
Abstract — Joint-action is one of the key research areas in robotics and especially important in phy...
The use of robots is predicted to become more and more widespread in everyday activities. For the mo...
This document is an extended version of the one published in the proceedings of RoboPhilosophy confe...