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Project description
EEGraph is a Python library to model electroencephalograms (EEGs) as graphs, so the connectivity between different brain areas could be analyzed. It has applications in the study of neurologic diseases like Parkinson or epilepsy. The graph can be exported as a NetworkX graph-like object or it can also be graphically visualized.
If you are using this library please cite it as:
Maitin, A. M., Nogales, A., Chazarra, P., & García-Tejedor, Á. J. (2023). EEGraph: An open-source Python library for modeling electroencephalograms using graphs. Neurocomputing, 519, 127-134.
Getting Started
Dependencies
What libraries does EEGraph use.
- Numpy
- Pandas
- Mne
- Matplotlib
- NetworkX
- Plotly
- Scipy
- Scot
- Antropy
- Kaleido
Installing EEGraph
To install the latest stable version of EEGraph, you can use pip in a terminal:
pip install EEGRAPH
Functions
Documentation
EEGraph documentation is available online. Examples of usage are also available.
Importing EEG data
The different supported EEG file formats by EEGraph.
File format | Extension
- Brainvision | .vhdr
- Neuroscan CNT | .cnt
- European data format | .edf
- Biosemi data format | .bdf
- General data format | .gdf
- EGI simple binary | .egi
- EGI MFF format | .mff
- eXimia | .nxe
Connectivity Measures
The different available connectivity measures in EEGraph. Visit documentation for more info.
- Cross Correlation
- Pearson Correlation
- Squared Coherence
- Imaginary Coherence
- Corrected Cross Correlation
- Weighted Phase Lag Index (WPLI)
- Phase Locking Value (PLV)
- Phase Lag Index (PLI)
- Directed Transfer Function (DTF)
- Power Spectrum
- Spectral Entropy
- Shannon Entropy
Usage
Example usage of the library with Pearson Correlation.
Load data
import eegraph
G = eegraph.Graph()
G.load_data(path = 'eeg_sample_1.edf', exclude = ['EEG TAntI1-TAntI', 'EEG TAntD1-TAntD', 'EEG EKG1-EKG2'])
Electrode Montage
An electrode montage file can be specified for channels names while loading EEG data. Visit documentation for more info.
import eegraph
G = eegraph.Graph()
G.load_data(path = 'eeg_sample_1.edf', electrode_montage_path = 'electrodemontage.set.ced')
Modelate data
Without frequency bands
graphs, connectivity_matrix = G.modelate(window_size = 2, connectivity = 'pearson_correlation')
With frequency bands
graphs, connectivity_matrix = G.modelate(window_size = 2, connectivity = 'squared_coherence', bands = ['delta','theta','alpha'])
Threshold
A custom threshold can be specified as a parameter in modelate. Default threshold values can be found in the documentation.
graphs, connectivity_matrix = G.modelate(window_size = 2, connectivity = 'pearson_correlation', threshold = 0.8)
Window size
The window size can be defined as an int or list.
int: The set window size in seconds, e.g.(2). All the time intervals will be 2 seconds long.
list: The specific time intervals in seconds, e.g.[0, 3, 8]. The time intervalls will be the same as specified in the input.
Visualize graph
In order to visualize graphs, EEG channel names must be in one of the following formats:
- Standard: 'Fp1', 'Fp2', 'C3', 'Cz'...
- Dash separated: 'Fp1-EEG', 'Fp2-EEG', 'C3-EEG', 'Cz-EEG'...
- Space separated: 'EEG Fp1', 'EEG Fp2', 'EEG C3', 'EEG Cz'...
For the Space separtor the information on the left side of the separator will be ignored, the standard electrode name must be on the right side.
For the Dash separtor the information on the right side of the separator will be ignored, the standard electrode name must be on the left side.
G.visualize(graphs[0], 'graph_1')
Execution example video
EEGraph Workflow
Contributing
See Contribution guidelines for more information.
Versioning
See CHANGELOG.txt for major/breaking updates and version history.
Contact
Centro de Estudios e Innovación en Gestión del Conocimiento (CEIEC), Universidad Francisco de Vitoria.
- Responsible: Ana María Maitín (a.maitin@ceiec.es), Alberto Nogales
- Main developer: Pedro Chazarra
- Contributor: Fernando Pérez (@FernandoPerezLara)
Disclaimer
- There is a known issue with DTF connectivity, sometimes the error 'math domain error' is shown, it is part of an external library.
License
This project is licensed under the GPL-3.0 License.
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