Last modified by pierstanpaolucci on 2023/06/29 18:29
From version 21.1
edited by cristianocapone
on 2021/09/22 10:57
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To version 27.1
edited by pierstanpaolucci
on 2021/09/25 14:58
Change comment: There is no comment for this version

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1 -XWiki.cristianocapone
1 +XWiki.pierstanpaolucci
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13 13  (((
14 14  **How the same network can generate different brain states with their specific propagation patterns and rhythms?**
15 15  
16 -In this Jupyter Lab the user can interactively change the neuromodulated fatigue parameters and observe in real-time the emergence of different categories of slow- wave wave-propagation patterns and the transition to an asynchronous regime on a columnar mean-field model equipped with lateral connections inferred from experimentally acquired cortical activity.
16 +In this Jupyter Lab environment, the user can interactively change the neuromodulated fatigue parameters and observe in real-time the emergence of different categories of slow- wave wave-propagation patterns and the transition to an asynchronous regime on a columnar mean-field model equipped with lateral connections inferred from experimentally acquired cortical activity.
17 17  
18 18  [[image:example1.png]]
19 19  
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29 29  
30 30  The latest version of the code presented in the drive of this collab can be found at (4).
31 31  
32 -(1) Capone, C. et al. (2021) “Simulations Approaching Data: Cortical Slow Waves in Inferred Models of the Whole Hemisphere of Mouse” arXiv:2104.07445 [[https:~~/~~/arxiv.org/abs/2104.07445>>https://arxiv.org/abs/2104.07445]]
32 +(1) Cristiano Capone, Chiara De Luca, Giulia De Bonis, Elena Pastorelli, Anna Letizia Allegra Mascaro, Francesco Resta, Francesco Pavone, Pier Stanislao Paolucci (2021) “Simulations Approaching Data: Cortical Slow Waves in Inferred Models of the Whole Hemisphere of Mouse” arXiv:2104.07445 [[https:~~/~~/arxiv.org/abs/2104.07445>>https://arxiv.org/abs/2104.07445]]
33 33  
34 34  (2) Resta, F., Allegra Mascaro, A. L., & Pavone, F. (2020). //Study of Slow Waves (SWs) propagation through wide-field calcium imaging of the right cortical hemisphere of GCaMP6f mice// [Data set]. EBRAINS. [[DOI: 10.25493/3E6Y-E8G>>url:https://doi.org/10.25493%2F3E6Y-E8G]]
35 35  
Collaboratory.Apps.Collab.Code.CollabClass[0]
Description
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1 -A jupyter lab notebook where the user can interactively change the neuromodulated fatigue parameters and observe in real-time the emergence of different categories of slow-wave wave-propagation patterns and the transition to an asynchronous regime on a columnar mean-field model equipped with lateral connections inferred from experimentally acquired cortical activity. Dorsal view of a mouse cortical hemisphere sampled by pixels of 100-micron size over a 25 mm^2 field of view.
1 +A Jupyter notebook where the user can interactively change the neuromodulated fatigue parameters and observe in real-time the emergence of different categories of slow-wave wave-propagation patterns and the transition to an asynchronous regime on a columnar mean-field model equipped with lateral connections inferred from experimentally acquired cortical activity. Dorsal view of a mouse cortical hemisphere sampled by pixels of 100-micron size over a 25 mm^2 field of view.
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