How do humans coordinate their intentions, goals and motor behaviors when performing joint action tasks? Recent experimental evidence suggests that resonance processes in the observer’s motor system are crucially involved in our ability to understand actions of others’, to infer their goals and even to comprehend their action-related language. In this paper, we present a control architecture for human–robot collaboration that exploits this close perception-action linkage as a means to achieve more natural and efficient communication grounded in sensorimotor experiences. The architecture is formalized by a coupled system of dynamic neural fields representing a distributed network of neural populations that encode in their activation patterns...
Children exchange information through multiple modalities, including verbal communication, gestures ...
Robots start to play a role in our social landscape, and they are progressively becoming responsive,...
© 2017 The Authors Human–Robot Interaction challenges Artificial Intelligence in many regards: dynam...
How do humans coordinate their intentions, goals and motor behaviors when performing joint action ta...
In this paper we present results of our ongoing research on non-verbal human-robot interaction that ...
In this chapter we present results of our ongoing research on efficient and fluent human-robot colla...
We report on our approach towards creating socially intelligent robots, which is heavily inspired by...
In this paper we present a model for action preparation and decision making in cooperative tasks tha...
We present a control architecture for non-verbal HRI that allows an assistant robot to have a pro-ac...
Cooperation1 is at the core of human social life. In this context, two major challenges face researc...
We demonstrate how combining the reasoning components from two existing systems designed for human-...
A major challenge in modern robotics is the design of autonomous robots that are able to cooperate ...
We present a control architecture for nonverbal HRI that allows an anthropomorphic assistant robot w...
Abstract — Cooperation1 is at the core of human social life. In this context, two major challenges f...
Robots should be capable of interacting in a cooperative and adaptive manner with their human counte...
Children exchange information through multiple modalities, including verbal communication, gestures ...
Robots start to play a role in our social landscape, and they are progressively becoming responsive,...
© 2017 The Authors Human–Robot Interaction challenges Artificial Intelligence in many regards: dynam...
How do humans coordinate their intentions, goals and motor behaviors when performing joint action ta...
In this paper we present results of our ongoing research on non-verbal human-robot interaction that ...
In this chapter we present results of our ongoing research on efficient and fluent human-robot colla...
We report on our approach towards creating socially intelligent robots, which is heavily inspired by...
In this paper we present a model for action preparation and decision making in cooperative tasks tha...
We present a control architecture for non-verbal HRI that allows an assistant robot to have a pro-ac...
Cooperation1 is at the core of human social life. In this context, two major challenges face researc...
We demonstrate how combining the reasoning components from two existing systems designed for human-...
A major challenge in modern robotics is the design of autonomous robots that are able to cooperate ...
We present a control architecture for nonverbal HRI that allows an anthropomorphic assistant robot w...
Abstract — Cooperation1 is at the core of human social life. In this context, two major challenges f...
Robots should be capable of interacting in a cooperative and adaptive manner with their human counte...
Children exchange information through multiple modalities, including verbal communication, gestures ...
Robots start to play a role in our social landscape, and they are progressively becoming responsive,...
© 2017 The Authors Human–Robot Interaction challenges Artificial Intelligence in many regards: dynam...