BibSonomy :: bibtex  ::

tag user group author concept BibTeX key search:all search:bernuly
A blue social bookmark and publication sharing system.
tags · relations · groups · popular
help · blog · about
login · register
bernuly's BibTeX entry:  

Design for a brain revisited: the neuromorphic design and functionality of the interactive space 'Ada'

Rev Neurosci, 14: 145--80, 2003.
Authors: K. Eng and D. Klein and A. B{\"a}bler and U. Bernardet and M. Blanchard and M. Costa and T. Delbr{\"u}ck and R. J. Douglas and K. Hepp and J. Manzo lli and M. Mintz and F. Roth and U. Rutishauser and K. Wassermann and A. M. Whatley and A. Wittmann and R. Wyss and P. F. M. J. Verschure
Tags: imported
Abstract: While much is now known about the operation and organisation of the brain at the neuronal and microcircuit level, we are still some wa y from understanding it as a complete system from the lowest to the highest levels of description. One way to gain such an integrative understanding of neural systems is to construct them. We have built the largest neuromorphic system yet known, an interactive space called 'Ada' that is able to in teract with many people simultaneously using a wide variety of sensory and behavioural modalities. 'She' received 553,700 visitors over 5 months duri ng the Swiss Expo.02 in 2002. In this paper we present the broad motivations, design and technologies behind Ada, and discuss the construction and an alysis of the system.
| BibTeX  
@article{Eng:DFABRWNDAFOWIV:2003,
title = {{Design for a brain revisited: the neuromorphic design and functionality of the interactive space 'Ada'}},
author = {K. Eng and D. Klein and A. B{\"a}bler and U. Bernardet and M. Blanchard and M. Costa and T. Delbr{\"u}ck and R. J. Douglas and K. Hepp and J. Manzo lli and M. Mintz and F. Roth and U. Rutishauser and K. Wassermann and A. M. Whatley and A. Wittmann and R. Wyss and P. F. M. J. Verschure},
journal = {Rev Neurosci},
pages = {145--80},
volume = {14},
year = {2003},
abstract = {While much is now known about the operation and organisation of the brain at the neuronal and microcircuit level, we are still some wa y from understanding it as a complete system from the lowest to the highest levels of description. One way to gain such an integrative understanding of neural systems is to construct them. We have built the largest neuromorphic system yet known, an interactive space called 'Ada' that is able to in teract with many people simultaneously using a wide variety of sensory and behavioural modalities. 'She' received 553,700 visitors over 5 months duri ng the Swiss Expo.02 in 2002. In this paper we present the broad motivations, design and technologies behind Ada, and discuss the construction and an alysis of the system.},
pubmedid = {12929924}, fileref = {Rev+Neurosci_14_145.pdf},
keywords = {imported }
}