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Code for Task Engagement Prediction from CSD profiles

The following files contain the code used for CSD estimation from the LFPs from Allen Brain Observatory and the task engagement prediction using Linear Discriminant Analysis.

LFP/Stim_to_LFP.ipynb

This notebook contains the first steps for Allen data obtention. It saves the desired sessions and the LFPs, and aligns them to the novel stimuli presentations.

LFP/LFP_functions.py

This script contains several functions used in the notebooks (LFP data alignment, Energy Normalization, CSD estimation, etc.)

LFP/get_cortical_layers.ipynb

This notebook upgrades the channel dataframes from the previous notebook by adding the labels on Cortical Layers using the Common Coordinates Framework from Allen Brain Map.

CSD/get_CSD.ipynb

This notebook computes the Current Source Densities for all the LFP data

CSD/CSD_Analysis.ipynb

This notebook performs the data discretization and prepares it for task engagement prediction with Linear Discriminant Analysis.

PowerSpectrum/get_power_spectra.ipynb

The same as get_CSD.ipynb but for Power Spectrum

PowerSpectrum/Spectral_Analysis.ipynb

The same as CSD_Analysis.ipynb but from Power Spectrum

datacite.yml
Title	Layer and frequency-specific task engagement in primary visual cortex
Authors	Ferro,Demetrio;Center for Brain and Cognition, Department of Information and Communication Technologies, Universitat Pompeu Fabra, Barcelona (Spain), 08003;;ORCID:0000-0003-4969-1415 Boncompte Carré,Pau;Center for Brain and Cognition, Department of Information and Communication Technologies, Universitat Pompeu Fabra, Barcelona (Spain), 08003 Moreno Bote,Rubén;Center for Brain and Cognition, Department of Information and Communication Technologies, Universitat Pompeu Fabra, Barcelona (Spain), 08003;;ORCID:0000-0003-0398-014X
Description	This resource contains software for the analysis of local field potential signals recorded in primary visual cortex and publicly availabe by Allen Brain Insitute (Visual Behavior Neuropixels). The data are recorded by using multi-contact laminar probes, hence span through cortical depths, during image change detection task.
License	Creative Commons Attribution-NonCommercial-ShareAlike-4.0 International (https://creativecommons.org/licenses/by-nc-sa/4.0/)
References	Morrison, Christopher. Allen Institute - Visual Behavior - Neuropixels. DANDI Archive. [doi:10.48324/DANDI.000713/0.240702.1725] (IsSupplementTo) Potworowski, J., Jakuczun, W., Łęski, S. & Wójcik, D. (2012) Kernel current source density method. Neural Comput 24(2), 541-575. [doi:10.1162/neco_a_00236] (IsSupplementTo) Pettersen, K. H., Devor, A., Ulbert, I., Dale, A. M. & Einevoll, G. T. (2006) Current-source density estimation based on inversion of electrostatic forward solution: effects of finite extent of neuronal activity and conductivity discontinuities. J Neurosci Methods 154(1-2), 116-133. [doi:10.1016/j.jneumeth.2005.12.005] (IsSupplementTo)
Funding
Keywords	Visual Neuroscience Task Engagement Laminar Layers
Resource Type	Software

README.md