Neuroscience Methods in Human-Robot Interaction. 31st August 2016 at Teachers College,. Columbia University, NY. WHAT ARE OUR AIMS? Cognitive neuroscientists with expertise in several topics of interest for RO-MAN 2016. WHO SHOULD ATTEND THE WORKSHOP? WHAT WILL BE COVERED BY THE WORKSHOP? Proudly powered by WordPress.
http://neurorobotics.ucsd.edu/
TODAY'S RATING
>1,000,000
Date Range
HIGHEST TRAFFIC ON
Saturday
LOAD TIME
0.6 seconds
PAGES IN
THIS WEBSITE
4
SSL
EXTERNAL LINKS
1
SITE IP
132.239.147.74
LOAD TIME
0.594 sec
SCORE
6.2
Neuroscience Methods in Human-Robot Interaction | neurorobotics.ucsd.edu Reviews
https://neurorobotics.ucsd.edu
Neuroscience Methods in Human-Robot Interaction. 31st August 2016 at Teachers College,. Columbia University, NY. WHAT ARE OUR AIMS? Cognitive neuroscientists with expertise in several topics of interest for RO-MAN 2016. WHO SHOULD ATTEND THE WORKSHOP? WHAT WILL BE COVERED BY THE WORKSHOP? Proudly powered by WordPress.
neurorobotics.ucsd.edu
INVITED SPEAKER | Neuroscience Methods in Human-Robot Interaction
http://neurorobotics.ucsd.edu/invited-speakers
Neuroscience Methods in Human-Robot Interaction. Susanne Quadflieg, PhD. The Role of fMRI in Robotics Research. Proudly powered by WordPress.
PROGRAM | Neuroscience Methods in Human-Robot Interaction
http://neurorobotics.ucsd.edu/program
Neuroscience Methods in Human-Robot Interaction. SCHEDULE on 31st August 2016. 9:15-9:30 – Opening remarks/Introduction: Burcu A. Urgen, PhD. Ayse P. Saygin, PhD. Human Neuroscience and Robotics. 10:30-11:00 – Coffee break. 11:00-11:45 Susanne Quadflieg, PhD (fMRI Tutorial). The role of fMRI in robotics research. 11:45-13:30 – Lunch. Emily S. Cross, PhD. Robots on the brain: Exploring brain and behavioural correlates of social perception of artificial agents. 14:30-15:00 Burcu A. Urgen, PhD.
CALL FOR PAPERS | Neuroscience Methods in Human-Robot Interaction
http://neurorobotics.ucsd.edu/call-for-papers
Neuroscience Methods in Human-Robot Interaction. We solicit full paper submissions from cognitive and social neuroscientists and human-robot interaction researchers with expertise in several topics of interest for RO-MAN 2016. The expectation from submissions is to highlight not only how neuroscience studies involving robotics have led to insights on the human cognitive and neural mechanisms of interaction, communication, and collaboration, but also how the findings inform the design and development of n...
ORGANIZERS | Neuroscience Methods in Human-Robot Interaction
http://neurorobotics.ucsd.edu/organizers
Neuroscience Methods in Human-Robot Interaction. Burcu A. Urgen, PhD. Contact: burcu [dot] urgen [at] gmail [dot] com. Website: http:/ www.burcuaysenurgen.com. Cognitive Neuroscience and Artificial Agent Design: A Case Study from Uncanny Valley. Ayse P. Saygin, PhD. Contact: apsaygin [at] gmail [dot] com. Website: http:/ sayginlab.ucsd.edu. Human Neuroscience and Robotics. Emily S. Cross, PhD. Contact: e.cross [at] bangor [dot] ac [dot] uk. Website: http:/ www.soba-lab.com/. Proudly powered by WordPress.
TOTAL PAGES IN THIS WEBSITE
4
News - Burcu Ayşen Ürgen, PhD
http://www.burcuaysenurgen.com/news
Burcu Ayşen Ürgen, PhD. Got Travel Award from OHBM with our work on action perception, fMRI, computer vision and RSA with Selen Pehlivan. To attend HBM 2016 in Geneva, Switzerland! We are organizing a workshop on Neuroscience Methods in Human-Robot Interaction as part of IEEE RO-MAN 2016. Conference in New York City this summer! Here is our workshop site:. Http:/ neurorobotics.ucsd.edu/. I have started my postdoc with Professor Guy Orban at the Department of Neuroscience, University of Parma (Italy)!
TOTAL LINKS TO THIS WEBSITE
1
neurorobotics.co.uk
Neurorobotics Research Laboratory (NRL)
From Body to Intelligence. The investigated morphologies and controllers are developed in analogy to the nervous system of humans and animals, i.e. the sensorimotor control loops are intended to mimic the structure and dynamics of a brain to a certain abstraction level. Myon A humanoid Robot for Research. With our newly developed Myon. Myon system is a system with a very high degree of complexity. Even though, his behavior does not completely collapse when being harmed (for example, if a cable is cut...
Neurorobotics Research Laboratory (NRL)
From Body to Intelligence. The investigated morphologies and controllers are developed in analogy to the nervous system of humans and animals, i.e. the sensorimotor control loops are intended to mimic the structure and dynamics of a brain to a certain abstraction level. Myon A humanoid Robot for Research. With our newly developed Myon. Myon system is a system with a very high degree of complexity. Even though, his behavior does not completely collapse when being harmed (for example, if a cable is cut...
Neurorobotics Platform
HBP Neurorobotics Platform. Brains for bodies and bodies for brains. Use the Neurorobotics Platform (NRP) developed in the HBP. To connect spiking neural networks. To virtual and real robots. This enables you to conduct embodiment experiments on our High Performance Computing (HPC) clusters. All this can be either done through an easy to use web interface or locally on your machine. That way you can build brains for bodies and bodies for brains. Read our Mission Statement here. Request a new feature.
Move Technologies
Postdoctoral Associate, Grab Lab, Yale University, New Haven, CT, USA.
Neuroscience Methods in Human-Robot Interaction
Neuroscience Methods in Human-Robot Interaction. 31st August 2016 at Teachers College,. Columbia University, NY. WHAT ARE OUR AIMS? Cognitive neuroscientists with expertise in several topics of interest for RO-MAN 2016. WHO SHOULD ATTEND THE WORKSHOP? WHAT WILL BE COVERED BY THE WORKSHOP? Proudly powered by WordPress.
NeuroRobotic Technologies Home
Arduino Due on Jetson TK1. Arduino Due on Jetson TK1. NeuroRobotic Technologies is dedicated to creating the next generation of intelligent, adaptive robotic systems by building autonomous control systems that mimic the brains of real animals. We have products and software for general robotics applications, and some specific to the neural control of robotic systems. Please choose a topic below for more details. Purchase software and products that are available from NeuroRobotic Technologies.
NeuroRobotic Technologies Home
Arduino Due on Jetson TK1. Arduino Due on Jetson TK1. NeuroRobotic Technologies is dedicated to creating the next generation of intelligent, adaptive robotic systems by building autonomous control systems that mimic the brains of real animals. We have products and software for general robotics applications, and some specific to the neural control of robotic systems. Please choose a topic below for more details. Purchase software and products that are available from NeuroRobotic Technologies.
NeuroRobotic Technologies Home
Arduino Due on Jetson TK1. Arduino Due on Jetson TK1. NeuroRobotic Technologies is dedicated to creating the next generation of intelligent, adaptive robotic systems by building autonomous control systems that mimic the brains of real animals. We have products and software for general robotics applications, and some specific to the neural control of robotic systems. Please choose a topic below for more details. Purchase software and products that are available from NeuroRobotic Technologies.
NeuroRobotic Technologies Home
Arduino Due on Jetson TK1. Arduino Due on Jetson TK1. NeuroRobotic Technologies is dedicated to creating the next generation of intelligent, adaptive robotic systems by building autonomous control systems that mimic the brains of real animals. We have products and software for general robotics applications, and some specific to the neural control of robotic systems. Please choose a topic below for more details. Purchase software and products that are available from NeuroRobotic Technologies.
Neurorobotics Research Laboratory (NRL)
From Body to Intelligence. The investigated morphologies and controllers are developed in analogy to the nervous system of humans and animals, i.e. the sensorimotor control loops are intended to mimic the structure and dynamics of a brain to a certain abstraction level. Myon A humanoid Robot for Research. With our newly developed Myon. Myon system is a system with a very high degree of complexity. Even though, his behavior does not completely collapse when being harmed (for example, if a cable is cut...
