MCPcopy Index your code
hub / github.com/MedMaxLab/selfEEG

github.com/MedMaxLab/selfEEG @v0.2.1

Chat with this repo
repository ↗ · DeepWiki ↗ · release v0.2.1 ↗ · + Follow
409 symbols 1,054 edges 38 files 205 documented · 50%
What it actually does AI analysis from the code graph — generated when you open this
loading…
README

PyPI Conda Docs Unittest DOI License

What is selfEEG?

selfEEG is a pytorch-based library designed to facilitate self-supervised learning (SSL) experiments on electroencephalography (EEG) data. In selfEEG, you can find different functions and classes that will help you build an SSL pipeline, from the creation of the dataloaders to the model's fine-tuning, covering other important aspects such as the definitions of custom data augmenters, models, and pretraining strategies. In particular, selfEEG comprises of the following modules:

  1. dataloading - collection of custom pytorch Dataset and Sampler classes as well as functions to split your dataset.
  2. augmentation - collection of data augmentation with fully support on GPU as well as other classes designed to combine them.
  3. models - collection of deep neural models widely used in the EEG analysis (e.g., DeepConvNet, EEGNet, ResNet, TinySleepNet, STNet, etc)
  4. ssl - collection of self-supervised algorithms with a highly customizable fit method (e.g., SimCLR, SimSiam, MoCo, BYOL, etc) and other useful objects such as a custom earlyStopper or a fine-tuning function.
  5. losses - collection of self-supervised learning losses.
  6. utils - other useful functions to manage EEG data.

What makes selfEEG good? We have designed some modules keeping in mind EEG applications, but lots of functionalities can be easily exported on other types of signal as well!

What will you not find in selfEEG? SelfEEG isn't an EEG preprocessing library. You will not find functions to preprocess EEG data in the best possible way (no IC rejection or ASR). However, some simple operations like filtering and resampling can be performed with functions implemented in the utils and augmentation modules. If you want to preprocess EEG data in a really good way, we suggest to take a look at:

  • MNE (python based)
  • EEGLAB (matlab based)
  • BIDSAlign (an EEGLab extension provided by our team)

installation

SelfEEG may be installed via pip (recommended):

pip install selfeeg

SelfEEG can be also installed via conda by running the following command:

conda install conda-forge::selfeeg

Additionally, optional but useful packages that we suggest to include in your environment, especially if you plan to work with jupyter, can be automatically installed with the following pip command:

pip install selfeeg[interactive]

Good practices

Although the dependency list is pretty short, it is strongly suggested to install selfEEG in a fresh environment. The following links provide a guide for creating a new Python virtual environment or a new conda environment:

  1. new virtual environment
  2. new conda environment

In addition, if PyTorch, Torchvision and Torchaudio are not present in your environment, the previous commands will install the CPU_only versions of such packages. If you have CUDA installed on your system, we strongly encourage you to first install PyTorch, Torchvision and Torchaudio by choosing the right configuration, which varies depending on your OS and CUDA versions; then, install selfEEG. The official PyTorch documentation provides an installation command selector, which is available at the following link.

Dependencies

selfEEG requires the following packages to correctly work. If you want to use selfEEG by forking and cloning the project, be sure to install them:

  • pandas >=1.5.3
  • scipy >=1.10.1
  • torch >= 2.0.0
  • torchaudio >=2.0.2
  • torchvision >=0.15.2
  • tqdm

The following list was extracted via pipdeptree. Packages like numpy does not appear because they are dependencies of other listed packages.

Optional packages which we suggest to include in your environment are:

  • jupyterlab
  • scikit-learn
  • seaborn (or simply matplotlib)
  • MNE-Python

Usage

in the Notebooks folder, you can find some notebooks which will explain how to properly use some modules. These notebooks are also included in the official documentation.

Contribution Guidelines

If you'd like to contribute to selfEEG, please take a look at our contributing guidelines.

If you also have suggestions regarding novel features to add, or simply want some support, please consider writing to our research team.

MedMax Team

Our team is open to new collaborations!

Requests and bug tracker

If you have some requests or you have noticed some bugs, use the GitHub issues page to report them. We will try to solve reported major bugs as fast as possible.

Authors and Citation

We have worked really hard to develop this library. If you use selfEEG during your research, please cite our work published in the Journal of Open Source Software (JOSS). It would help us to continue our research.

@article{DelPup2024,
  title = {SelfEEG: A Python library for Self-Supervised Learning in Electroencephalography},
  author = {Del Pup, Federico and
            Zanola, Andrea and
            Tshimanga, Louis Fabrice and
            Mazzon, Paolo Emilio and
            Atzori, Manfredo},
  year = {2024},
  publisher = {The Open Journal},
  journal = {Journal of Open Source Software},
  volume = {9},
  number = {95},
  pages = {6224},
  doi = {10.21105/joss.06224},
  url = {https://doi.org/10.21105/joss.06224}
}

Contributors: - Eng. Federico Del Pup - M.Sc. Andrea Zanola - M.Sc. Louis Fabrice Tshimanga - Eng. Paolo Emilio Mazzon - Prof. Manfredo Atzori

License

SelfEEG is released under the MIT Licence

Core symbols most depended-on inside this repo

_reset_seed
called by 26
selfeeg/utils/utils.py
evaluate_loss
called by 26
selfeeg/ssl/base.py
rec_best_weights
called by 9
selfeeg/ssl/base.py
restore_best_weights
called by 9
selfeeg/ssl/base.py
fit
called by 9
selfeeg/ssl/contrastive.py
test
called by 9
selfeeg/ssl/contrastive.py
get_filter_coeff
called by 7
selfeeg/augmentation/functional.py
early_stop
called by 7
selfeeg/ssl/base.py

Shape

Method 281
Class 70
Function 58

Languages

Python100%

Modules by API surface

selfeeg/models/encoders.py71 symbols
selfeeg/models/zoo.py48 symbols
selfeeg/augmentation/functional.py34 symbols
selfeeg/ssl/contrastive.py31 symbols
test/EEGself/augmentation/functional_test.py29 symbols
selfeeg/augmentation/compose.py23 symbols
test/EEGself/ssl/ssl_test.py22 symbols
selfeeg/models/layers.py22 symbols
selfeeg/ssl/base.py18 symbols
test/EEGself/models/zoo_test.py17 symbols
selfeeg/utils/utils.py15 symbols
selfeeg/dataloading/load.py14 symbols

For agents

$ claude mcp add selfEEG \
  -- python -m otcore.mcp_server <graph>

⬇ download graph artifact