Advances in robotics and artificial intelligence introduce increasingly capable robots to society. Such skilled robots bring into question the importance of an object’s capabilities in determining its animacy. This is particularly salient among children, who make the most mistakes in distinguishing animate and inanimate objects. It is common for children to give inanimate objects animate traits; in this way, able-bodied robots could become “animate”. The purpose of this study is to address whether or not providing an object with enough behavioral and intellectual capabilities can change the object’s animacy. A total of 90 children (ages 3, 5, and 7) will interact with either a human or a robot that displays different levels of ability. Foll...
Robots exhibit life-like behavior by performing intelligent actions. To enhance human-robot interact...
Robots exhibit life-like behavior by performing intelligent actions. To enhance human-robot interact...
The use of robots as educational partners has been extensively explored, but less is known about the...
Social robots are becoming more sophisticated; in many cases they offer complex, autonomous interact...
Complex autonomous interactions, biomimetic appearances, and responsive behaviours are increasingly ...
Complex interactions, biologically-inspired features and intelligence are increasingly seen in enter...
Complex interactions, biologically-inspired features and intelligence are increasingly seen in enter...
Robots exhibit life-like behavior by performing intelligent actions. To enhance human-robot interact...
Recent technological developments in robotics has driven the design and production of different huma...
The goal of this research project is to identify the source of children's ideas about the intelligen...
Prior work has yielded contradicting evidence regarding the age at which children consistently and c...
Models of children’s cognitive development indicate that as children grow, they transition from usin...
One of robot designers' main goals is to make robots as sociable as possible. Aside from improving r...
Although robots are becoming an ever-growing presence in society, we do not hold the same expectatio...
Robots exhibit life-like behavior by performing intelligent actions. To enhance human-robot interact...
Robots exhibit life-like behavior by performing intelligent actions. To enhance human-robot interact...
The use of robots as educational partners has been extensively explored, but less is known about the...
Social robots are becoming more sophisticated; in many cases they offer complex, autonomous interact...
Complex autonomous interactions, biomimetic appearances, and responsive behaviours are increasingly ...
Complex interactions, biologically-inspired features and intelligence are increasingly seen in enter...
Complex interactions, biologically-inspired features and intelligence are increasingly seen in enter...
Robots exhibit life-like behavior by performing intelligent actions. To enhance human-robot interact...
Recent technological developments in robotics has driven the design and production of different huma...
The goal of this research project is to identify the source of children's ideas about the intelligen...
Prior work has yielded contradicting evidence regarding the age at which children consistently and c...
Models of children’s cognitive development indicate that as children grow, they transition from usin...
One of robot designers' main goals is to make robots as sociable as possible. Aside from improving r...
Although robots are becoming an ever-growing presence in society, we do not hold the same expectatio...
Robots exhibit life-like behavior by performing intelligent actions. To enhance human-robot interact...
Robots exhibit life-like behavior by performing intelligent actions. To enhance human-robot interact...
The use of robots as educational partners has been extensively explored, but less is known about the...