A controller-peripheral architecture and costly energy principle for learning

Description

This is a complementary repo to which focuses on fMRI BOLD data processing and analysis in this research paper.

Structure and main components

This repo can be roughly divided into two parts: fMRI data processing and fMRI data analysis.
For fMRI data processing,

bids.py organises raw fMRI datasets into the standard Brain Imaging Data Structure (BIDS).
glm.py fits Generalised Linear Models (GLMs) on preprocessed fMRI BOLD data and extracts beta weights for actual analysis.

For fMRI data analysis,

roi_rsa.py runs a similar representational similarity analysis in Mack et al., 2016
pca.py runs a similar analysis in Mack et al., 2020
pca_3runs.py runs a similar analysis in Ahlheim et al., 2018
decoding.py runs a similar neural decoding analysis in Braunlich & Love, 2019

Environment setup

Create a docker file using neurodocker

neurodocker generate docker \
--pkg-manager apt \
--base-image neurodebian:stretch-non-free \
--arg DEBIAN_FRONTEND=noninteractive \
--install convert3d fsl ants gcc g++ graphviz tree \
        git-annex-standalone vim emacs-nox nano less ncdu \
        tig git-annex-remote-rclone octave netbase \
--spm12 version=r7771 \
--miniconda \
version=latest \
conda_install="python=3.8 pytest jupyter jupyterlab jupyter_contrib_nbextensions
                traits pandas matplotlib scikit-learn scikit-image seaborn nbformat
                nb_conda" \
pip_install="https://github.com/nipy/nipype/tarball/master
                https://github.com/INCF/pybids/tarball/master
                nilearn nipy duecredit nbval" \
> nipype.Dockerfile

Build an image based on the dockerfile (make sure the directory where the Dockerfile is is empty). . means using the current directory.

docker build --tag nipype .

Start an iterative session inside the image, changes will be removed after exiting.

docker run -it --rm nipype

Mount a local directory inside the above container’s diretory. Changes made inside the container will change the local container.

docker run -it --rm -v /home/ken/projects/brain_data/:/home/ken/projects/brain_data/ nipype

Attribution

@article {Luo2023.01.16.524194,
    author = {Xiaoliang Luo and Robert M. Mok and Brett D. Roads and Bradley C. Love},
    title = {A controller-peripheral architecture and costly energy principle for learning},
    elocation-id = {2023.01.16.524194},
    year = {2023},
    doi = {10.1101/2023.01.16.524194},
    publisher = {Cold Spring Harbor Laboratory},
}

Name		Name	Last commit message	Last commit date
Latest commit History 171 Commits
Ahlheim_results		Ahlheim_results
compression_results		compression_results
decoding_results		decoding_results
decoding_results_overtime		decoding_results_overtime
.gitignore		.gitignore
Dockerfile		Dockerfile
Dockerfile2		Dockerfile2
README.md		README.md
bids.py		bids.py
decoding.py		decoding.py
glm.py		glm.py
pca.py		pca.py
pca_3runs.py		pca_3runs.py
roi_rsa.py		roi_rsa.py
utils.py		utils.py

don-tpanic/brain_data

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A controller-peripheral architecture and costly energy principle for learning

Description

Structure and main components

Environment setup

Attribution

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