Code for [OpenNeuro] Mouse-Tracking EGI dataset preprocessing and preliminary analysis, accompanying with the following paper:
Chen, K., Wang, R., Huang, J., Gao, F., Yuan, Z., Qi, Y., & Wu, H. (2022). A resource for assessing dynamic binary choices in the adult brain using EEG and mouse-tracking. Scientific Data, 9(1), 416. https://doi.org/10.1038/s41597-022-01538-5
We provide a dataset combining high-density Electroencephalography (HD-EEG, 128 channels) and mouse-tracking intended as a resource for investigating dynamic decision processing of semantic and food preference choices in the brain.
You can find the analysis scripts used in this project with result figures. Please don't hesitate to create issues or contact Kun CHEN (yc17307@um.edu.mo) if you have any questions about the code or dataset.
Experimental paradigm
See well-rendered
2_eeg/d_task_visualization.ipynbversion here since GitHub didn't render it correctly.
├── 0_format
│ ├── convert2bids.ipynb # BIDS conversion from raw data to BIDS
│ └── mff2set.m # convert .mff file to .set file
├── 1_behavior
│ ├── a_behavior.ipynb # rt/acc etc. for different tasks/conditions
│ ├── b_trajectory.ipynb # trajectory analysis
│ └── traj_util.py
├── 2_eeg
│ ├── a_rest_preprocessing.m # resting EEG preprocessing
│ ├── b_rest_microstate.m # microstate analysis
│ ├── c_task_preprocessing.m # task EEG preprocessing
│ └── d_task_visualization.ipynb # ERP/TFR/topomap/MVPA analysis
├── assets
│ ├── animacy.csv # animate/inanimate words(with chinese and corresponding english version)
│ ├── association.csv # mathing between words and images
│ ├── GSN-HydroCel-129.sfp # standard channel location, get from MNE
│ └── Helvetica.ttf # font for plotting
├── stimuli
│ ├── food # food choice task related PsychoPy scripts (questions & binary choice task)
│ ├── imageChoice # image choice task related PsychoPy scripts
│ ├── wordChoice # word choice task related PsychoPy scripts
│ └── README.md # description of stimuli
├── LICENSE
└── README.mdPython
mne
mne-bids
numpy
scipy
scikit-learn
pandas
seaborn
squeak # https://github.com/const7/Squeak (fixed some API compatibility issues and adapted some functions)MATLAB
EEGLAB # and related plugins
Microstate plugin # for microstate analysis, see here https://www.thomaskoenig.ch/index.php/software/microstates-in-eeglab/getting-startedMost of the time you only need to change the data path to your own one. Make sure to install all packages before you start.
This part may not run smoothly since I started from the actual raw, dirty data, and there are several outside data imported. But still, you can refer to most of the scripts to convert your mff data to BIDS compatible format data.
Change the data path to the BIDS path in your computer, and you can run this automatically. The a_behavior.ipynb will generate several .csv files for further use in b_trajectory.ipynb.
Change the data path to the path in your computer again you can run it smoothly. *_preprocessing.m will generate preprocessed data for further use, and the rest scripts will do the analysis and visualization.
@article{chen2022resource,
title={A resource for assessing dynamic binary choices in the adult brain using EEG and mouse-tracking},
author={Chen, Kun and Wang, Ruien and Huang, Jiamin and Gao, Fei and Yuan, Zhen and Qi, Yanyan and Wu, Haiyan},
journal={Scientific data},
volume={9},
number={1},
pages={1--10},
year={2022},
publisher={Nature Publishing Group}
}