# Computational Neuroscience

To design numerical, distributed and adaptive models in interaction
with biology and medical science.

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## The task-force list

- WHAT I WOULD LIKE TO LEARN FROM CORTINA - AS AN APPRENTICE

SUBJECTS | RESEARCHER | MEETINGS |

statistical significance of measure sequences | Thierry V. |

gap-junctions in the retina | Thierry V. |

enactive vision | Thierry V. |

retina | Maria Jose E. |

spike coding | Maria Jose E. |

learning and memory | Maria Jose E. |

the modeling of neural networks and artificial learning | Patricio O. |

statistics of the natural images | Pierre K. |

spike coding of visual information | Mauricio C. |

analysis of electrode data | Mauricio C. |

multielectrode array experiments | Mauricio C. |

facial/body perception | Mauricio C. |

Application and enhancement of machine learning techniques | Rodrigo S. |

statistical analysis of spike trains | Laurent B. |

implementation of large scale simulation | Hasser N. |

statistics for retinal ganglion cells | Hasser N. |

harwdware implementation of retinal models | Hasser N. |

model of retina | Pierre G. |

consider retina modules and study by a neural field approach how such modules communicates with other similar brain cortical structures | Axel H. |

spike train statistics | Erick O. |

evolutionary strategy algorithms | Erick O. |

- WHAT I WOULD TO BRING TO CORTINA - AS AN EXPERT

SUBJECTS | RESEARCHER | MEETINGS |

conductance-based modeling of retinal circuits | Patricio O. |

role/effects of channel noise in neural coding | Patricio O. |

Independent Component Analysis methods | Thierry V. |

Analysis of spike train statistics from experimental data | Bruno C. |

Characterizing the retina response from mathematical models | Bruno C. |

experimental data analysis | Bruno C. |

image processing | Mauricio C. |

visual perception | Mauricio C. |

3D optical capture | Mauricio C. |

motion detection | Mauricio C. |

Neural coding | Adrian P. |

statistics of natural images | Adrian P. |

computational neuroscience | Adrian P. |

connection between retinal cells | Hassan N. |

retinal light stimulation optimization | Miguel P. |

algorithms oscilator coupling through the kuramoto model specif. applied to the circadian rhythm | Miguel P. |

ray tracing and scanline based algorithm | Miguel P. |

brain signal analysis | Laurent B. |

Application and enhancement of machine learning techniques | Rodrigo S. |