Difference between revisions of "Workshops"

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developed by the Nemonic consortium.
 
developed by the Nemonic consortium.
  
== Project Overview ==
 
The Nemonic project has three parts. First, there is a development component, called DEV, to create new technology to overcome critical barrier to progress in neuroscience. In a series of Case Studies, neuroengineers will develop custom instrumentation to enable currently impossible neuroscience experiments. A proven work flow involving custom optics and iterative refinement, and culminating in commercially produced parts, will be used to create the custom instrumentation. The Case Studies involve a range of animal models (mice, ferrets, cats, and monkeys), and optical and instrumental challenges.
 
  
Second, there is a dissemination component, called DISSEM, to spread this technology broadly to other labs. All engineering materials and resources generated in the Case Studies will be open-sourced and released to the broader public in thoroughly documented and curated web resource. Components and systems developed in the Case Studies will be made commercially available. Also, a series of workshops are held to train scientists on how to design and build custom systems for multiphoton neuroimaging.
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== 2019 Speakers ==
 
 
Third, there is an advancement component, called ADV, to push the technology of multiphoton neuroimaging into the next frontier. Two technologies will be pursued: miniaturized, highly integrated photonic systems for practical and scalable head-mounted multiphoton neuroimaging in freely moving animals; and superresolution imaging to resolve structures relevant to synaptic and molecular dynamics in vivo. A series of meetings with top names in the field are held to promote novel collaborations and more rapidly advance technologies that are relevant to multiphoton neuroimaging in the future.
 
 
 
For a more in depth description go to [[Project Details]]
 
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== Speakers ==
 
  
 
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== Funding ==
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== Workshop files ==
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== Related Papers ==
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CaImAn an open source tool for scalable calcium imaging data analysis
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[[https://elifesciences.org/articles/38173]]
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Robotic Automation of In Vivo Two-Photon Targeted Whole-Cell Patch-Clamp Electrophysiology
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https://www.sciencedirect.com/science/article/pii/S089662731730733X
  
The Nemonic project is funded through a National Science Foundation [https://neuronex.org/about NeuroNex] (Next Generation Networks for Neuroscience) award.
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Progress in automating patch clamp cellular physiology
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https://journals.sagepub.com/doi/abs/10.1177/2398212818776561
  
== See Also==
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ABLE: An Activity-Based Level Set Segmentation Algorithm for Two-Photon Calcium Imaging Data
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https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5661356/
  
Visit our discussion board to talk and ask questions! [https://nemonic.ece.ucsb.edu/board/ Discussion Board]
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High speed functional imaging with source localized multifocal two-photon microscopy
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https://www.osapublishing.org/boe/abstract.cfm?uri=boe-9-8-3678
  
  
 
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Revision as of 15:09, 21 May 2019


Logo work nemonic 01.jpg

The Nemonic project holds a yearly workshops at UC Santa Barbara to help train personnel from other institutions on how to create and use novel multiphoton neuroimaging instrumentation developed by the Nemonic consortium.


2019 Speakers

  • Kaspar Podgorski, Janelia Research Campus

  • Nico Pegard, UNC Chapel Hill

  • Darcy Peterka, Columbia

  • Emily Gibson, UC Denver

  • Andrea Giovannucci, UNC Chapel Hill

  • Simon Schultz, Imperial college London


Workshop files

Related Papers

CaImAn an open source tool for scalable calcium imaging data analysis [[1]] Robotic Automation of In Vivo Two-Photon Targeted Whole-Cell Patch-Clamp Electrophysiology https://www.sciencedirect.com/science/article/pii/S089662731730733X

Progress in automating patch clamp cellular physiology https://journals.sagepub.com/doi/abs/10.1177/2398212818776561

ABLE: An Activity-Based Level Set Segmentation Algorithm for Two-Photon Calcium Imaging Data https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5661356/

High speed functional imaging with source localized multifocal two-photon microscopy https://www.osapublishing.org/boe/abstract.cfm?uri=boe-9-8-3678



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