Difference between revisions of "EyeWire Wiki Table of Contents"

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[[File:EyeWire_Ganglion_AwardWinner.jpg|thumb|Neurons Mapped by EyeWirers]]
 
[[File:EyeWire_Ganglion_AwardWinner.jpg|thumb|Neurons Mapped by EyeWirers]]
  
''EyeWire'' is a game to map the brain from [[Sebastian Seung]]'s Lab at MIT. This citizen science human-based computation game challenges players to map 3D [[neuron]]s in a [[retina]]. Eyewire was officially launched on December 10, 2012 and has since grown to over 120,000 players from 150 countries.
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''EyeWire'' is a game to map the brain from [[Sebastian Seung]]'s Lab at MIT. This citizen science human-based computation game challenges players to map 3D [[neuron]]s in a [[The Eye and Retina#Anatomy_of_the_human_retina|retina]]. Eyewire was officially launched on December 10, 2012 and has since grown to over 175,000 players from 145 countries.
  
EyeWire gameplay advances neuroscience by helping researchers discover how neurons connect to process visual information. Anyone, anywhere can help neuroscientists at MIT develop advanced artificial intelligence and computational technologies for mapping the connectome.  You need no scientific background to play. EyeWire works best on high speed internet.  
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EyeWire gameplay advances neuroscience by helping researchers discover how neurons connect to process visual information. Anyone, anywhere can help neuroscientists at MIT develop advanced artificial intelligence and computational technologies for mapping the [[Connectomics: An Introduction|connectome]].  You need no scientific background to play. EyeWire works best on high speed internet. It is optimized for use on Google Chrome.  
  
===The Game===
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== The Game ==
====Instructions====
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=== Instructions ===
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*[[How to Play]]
 
*[[F-Scores and Accuracy]]
 
*[[F-Scores and Accuracy]]
 
*[[Tutorials]]
 
*[[Tutorials]]
 
*[[Competitions]]
 
*[[Competitions]]
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*[[Overcoming Obstacles]]
 
*[[FAQ]]
 
*[[FAQ]]
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*[[For parents]]
 
*Help with [[WebGL]]
 
*Help with [[WebGL]]
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*[[Linking EyeWire to edX]]
  
===The Science===
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=== [[Player Roles]] ===
=====Background=====
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===Advanced Topics===
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*[[The Consensus]]
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*[[Mergers]]
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*[[Completing a Cell]]
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*[[Encountered in cubes]]
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*[[The Eyewire Lexicon]]
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== The Science ==
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=== Background ===
 
*[[Connectomics: An Introduction]]
 
*[[Connectomics: An Introduction]]
*[[Anatomy of the eye and the retina]]
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*[[The Eye and Retina]]
 
*[[Retinal Connectomics]]
 
*[[Retinal Connectomics]]
 
*[[Citizen Science and Citizen Neuroscience]]
 
*[[Citizen Science and Citizen Neuroscience]]
 
*[[Excerpts from Connectome the book]]
 
*[[Excerpts from Connectome the book]]
  
=====How Connectomics is Done=====
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=== How Connectomics is Done ===
*[[Serial block-face scanning electron microscopy (SBFSEM)]]
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*[[Machine-learning-enabled Image Analysis]]
 
*[[Machine-learning-enabled Image Analysis]]
 
*[[Artificial Intelligence]]
 
*[[Artificial Intelligence]]
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* [[Neural computational models]]
 
* [[Neural computational models]]
  
=====Our Data=====
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=== Our Data ===
 
*[[E2198]]
 
*[[E2198]]
=== [[Neuron]]s ===
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*[[Serial block-face scanning electron microscopy (SBFSEM)]]
=====[[Amacrine Cell]]=====
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== Retinal Cell Classification ==
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=== [http://museum.eyewire.org/ The Cell Museum: Gallery] ===
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The Cell Museum is a newly released visualization platform that showcases retinal cell types reconstructed by EyeWire. In addition to providing our own classification for these neurons, we include stratification profile data for each cell. Detailed annotation of cell names can be found in the Database.
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=== [[The Cell Museum: Database]] ===
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In conjunction with the Cell Museum, we are developing a database of retinal ganglion cells in an attempt to create a comprehensive catalog of all neuronal cell types in the retina. Our hope is to collaborate with experts in the field to generate a resource that unifies current classification efforts and can be referenced for future research.   
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== [[Neuron]]s ==
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=== [[Amacrine Cell]] ===
 
* [[Starburst Amacrine Cell]]
 
* [[Starburst Amacrine Cell]]
=====[[Bipolar Cell]]=====
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=====[[Ganglion Cell]]=====
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=== [[Bipolar Cell]] ===
* [[On-Off Direction-Selective Ganglion Cell]]
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=== [[Ganglion Cell]] ===
 
* [[Orientation Selective Ganglion Cell|Orientation-Selective Ganglion Cell]]
 
* [[Orientation Selective Ganglion Cell|Orientation-Selective Ganglion Cell]]
* [[W3 Cell]]
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* [[On-Off Direction-Selective Ganglion Cell]]
 
* [[JAM-B Cell]]
 
* [[JAM-B Cell]]
=====[[Glial Cell]]=====
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===[[Horizontal Cell]] ===
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=== [[Glial Cell]] ===
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=== [[Photoreceptors]] ===
  
=====Substructures of the neuron=====
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== Substructures of the neuron ==
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* [[Cell Body]]
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* [[Dendrite]]
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* [[Axon]]
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* [[Synapse]]
 
* [[Autapse]] ([[Self-touch]])
 
* [[Autapse]] ([[Self-touch]])
  
===Meet Seung Lab===
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== Meet Seung Lab ==
*[[Who we are and what we do.]]
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* [[Who we are and what we do.]]
  
===EyeWire in Schools===
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== EyeWire in Schools ==
*[[High school outreach]]
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* [[High school outreach]]
*[[MOSTEC]]--A summer program at MIT for high school students interested in Connectomics.
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* [[MOSTEC]] (A summer program at MIT for high school students interested in Connectomics.)
  
===[[EyeWire Library]]===
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== [[EyeWire Library]] ==
 
A collection of papers for those interested in delving deeper into the science behind EyeWire.
 
A collection of papers for those interested in delving deeper into the science behind EyeWire.
  
===Making a Contribution of Your Own===
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== Making a Contribution of Your Own ==
*[[Make a Prezi Presentation!]]
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*[[How to Read a Science Paper]]
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*[[Conduct your own research]]
 
*[[Conduct your own research]]
 
*[[Add your contribution to the site]]
 
*[[Add your contribution to the site]]
  
===Connect with EyeWire===
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== Connect with EyeWire ==
 
*[http://forum.eyewire.org Forums]
 
*[http://forum.eyewire.org Forums]
 
*[http://blog.eyewire.org Blog]
 
*[http://blog.eyewire.org Blog]
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*[https://twitter.com/eye_wire Twitter]
 
*[https://twitter.com/eye_wire Twitter]
  
== [[Wiki Translation Template]] ==
 
 
[[de:Hauptseite]]
 
 
[[es:Página_principal]]
 
[[es:Página_principal]]
 
[[it:Pagina_principale]]
 
[[it:Pagina_principale]]
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[[de:Hauptseite]]
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[[ko:대문]]

Latest revision as of 20:16, 2 September 2015

EyeWire: a game to map the brain.
Neurons Mapped by EyeWirers

EyeWire is a game to map the brain from Sebastian Seung's Lab at MIT. This citizen science human-based computation game challenges players to map 3D neurons in a retina. Eyewire was officially launched on December 10, 2012 and has since grown to over 175,000 players from 145 countries.

EyeWire gameplay advances neuroscience by helping researchers discover how neurons connect to process visual information. Anyone, anywhere can help neuroscientists at MIT develop advanced artificial intelligence and computational technologies for mapping the connectome. You need no scientific background to play. EyeWire works best on high speed internet. It is optimized for use on Google Chrome.

The Game

Instructions

Player Roles

Advanced Topics

The Science

Background

How Connectomics is Done

Our Data

Retinal Cell Classification

The Cell Museum: Gallery

The Cell Museum is a newly released visualization platform that showcases retinal cell types reconstructed by EyeWire. In addition to providing our own classification for these neurons, we include stratification profile data for each cell. Detailed annotation of cell names can be found in the Database.

The Cell Museum: Database

In conjunction with the Cell Museum, we are developing a database of retinal ganglion cells in an attempt to create a comprehensive catalog of all neuronal cell types in the retina. Our hope is to collaborate with experts in the field to generate a resource that unifies current classification efforts and can be referenced for future research.

Neurons

Amacrine Cell

Bipolar Cell

Ganglion Cell

Horizontal Cell

Glial Cell

Photoreceptors

Substructures of the neuron

Meet Seung Lab

EyeWire in Schools

EyeWire Library

A collection of papers for those interested in delving deeper into the science behind EyeWire.

Making a Contribution of Your Own

Connect with EyeWire