18 Sep
2014
18 Sep
'14
11:22 a.m.
The CEU Department of Cognitive Science cordially invites you to a talk
(as part of its Departmental Colloquium series)
by
Guy Hoffman (IDC, Israel)
Date: Sept 24, 2014 - 17:00 - 18:30
Location: Department of Cognitive Science, CEU, Frankel Leó út 30-34.,
Room G15
TITLE:
Human-Robot Teamwork: Fluency and Embodiment in Artificial
Intelligence
ABSTRACT:
For personal robots to play a long-term engaging role in untrained
humans' lives, they need to display the kind of efficient and satisfying
performance that humans are accustomed to from each other. We propose a
notion of human-robot fluency, in particular as it relates to meshed
action timing and motion path quality. To this end we explore
computational perception and cognition architectures, as well as
experimental studies of user's responses to timing of nonverbal acts.
In a collaborative construction task, we find participants to prefer
anticipatory action, even at the cost of errors and without increase in
task efficiency. In another study we show priming through embodied
perceptual simulation to have significant effects on both the efficiency
of a human-robot team, and on humans' perception of the robot's
intelligence, fluency, and gender.
In the field of entertainment robotics, we present a robotic theater
control system using insights from acting theory, which enables robotic
nonverbal behavior that is both reactive and expressive. We then discuss
an interactive robotic Jazz improvisation system that uses embodied
gestures for musical expression, enabling simultaneous, yet responsive,
joint improvisation.
Finally, we present the design of a new smartphone-based media
companion robot. Human-subject studies show effects on music enjoyment
and social presence when the robot responds to music that participants
listen to, as well as perceived partner responsiveness based on the
robot's nonverbal behavior.
- See more at:
http://cognitivescience.ceu.hu/events/2014-09-24/departmental-colloquium-gu…
TITLE:
Human-Robot Teamwork: Fluency and Embodiment in Artificial
Intelligence
ABSTRACT:
For personal robots to play a long-term engaging role in untrained
humans' lives, they need to display the kind of efficient and satisfying
performance that humans are accustomed to from each other. We propose a
notion of human-robot fluency, in particular as it relates to meshed
action timing and motion path quality. To this end we explore
computational perception and cognition architectures, as well as
experimental studies of user's responses to timing of nonverbal acts.
In a collaborative construction task, we find participants to prefer
anticipatory action, even at the cost of errors and without increase in
task efficiency. In another study we show priming through embodied
perceptual simulation to have significant effects on both the efficiency
of a human-robot team, and on humans' perception of the robot's
intelligence, fluency, and gender.
In the field of entertainment robotics, we present a robotic theater
control system using insights from acting theory, which enables robotic
nonverbal behavior that is both reactive and expressive. We then discuss
an interactive robotic Jazz improvisation system that uses embodied
gestures for musical expression, enabling simultaneous, yet responsive,
joint improvisation.
Finally, we present the design of a new smartphone-based media
companion robot. Human-subject studies show effects on music enjoyment
and social presence when the robot responds to music that participants
listen to, as well as perceived partner responsiveness based on the
robot's nonverbal behavior.
TITLE:
Human-Robot Teamwork: Fluency and Embodiment in Artificial
Intelligence
ABSTRACT:
For personal robots to play a long-term engaging role in untrained
humans' lives, they need to display the kind of efficient and satisfying
performance that humans are accustomed to from each other. We propose a
notion of human-robot fluency, in particular as it relates to meshed
action timing and motion path quality. To this end we explore
computational perception and cognition architectures, as well as
experimental studies of user's responses to timing of nonverbal acts.
In a collaborative construction task, we find participants to prefer
anticipatory action, even at the cost of errors and without increase in
task efficiency. In another study we show priming through embodied
perceptual simulation to have significant effects on both the efficiency
of a human-robot team, and on humans' perception of the robot's
intelligence, fluency, and gender.
In the field of entertainment robotics, we present a robotic theater
control system using insights from acting theory, which enables robotic
nonverbal behavior that is both reactive and expressive. We then discuss
an interactive robotic Jazz improvisation system that uses embodied
gestures for musical expression, enabling simultaneous, yet responsive,
joint improvisation.
Finally, we present the design of a new smartphone-based media
companion robot. Human-subject studies show effects on music enjoyment
and social presence when the robot responds to music that participants
listen to, as well as perceived partner responsiveness based on the
robot's nonverbal behavior.
- See more at:
http://cognitivescience.ceu.hu/events/2014-09-24/departmental-colloquium-gu…
We're looking forward to see you there (Frankel Leo u. 30-34) !
Cognitive Science Events at CEU: http://cognitivescience.ceu.hu/events
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