Awesome
CardIO
CardIO
is designed to build end-to-end machine learning models for deep research of electrocardiograms.
Main features:
- load and save signals in various formats: WFDB, DICOM, EDF, XML (Schiller), etc.
- resample, crop, flip and filter signals
- detect PQ, QT, QRS segments
- calculate heart rate and other ECG characteristics
- perform complex processing like fourier and wavelet transformations
- apply custom functions to the data
- recognize heart diseases (e.g. atrial fibrillation)
- efficiently work with large datasets that do not even fit into memory
- perform end-to-end ECG processing
- build, train and test neural networks and other machine learning models
For more details see the documentation and tutorials.
About CardIO
CardIO is based on BatchFlow. You might benefit from reading its documentation. However, it is not required, especially at the beginning.
CardIO has three modules: core
,
models
and
pipelines
.
core
module contains EcgBatch
and EcgDataset
classes.
EcgBatch
defines how ECGs are stored and includes actions for ECG processing. These actions might be used to build multi-staged workflows that can also involve machine learning models. EcgDataset
is a class that stores indices of ECGs and generates batches of type EcgBatch
.
models
module provides several ready to use models for important problems in ECG analysis:
- how to detect specific features of ECG like R-peaks, P-wave, T-wave, etc
- how to recognize heart diseases from ECG, for example, atrial fibrillation
pipelines
module contains predefined workflows to
- train a model and perform an inference to detect PQ, QT, QRS segments and calculate heart rate
- train a model and perform an inference to find probabilities of heart diseases, in particular, atrial fibrillation
Basic usage
Here is an example of a pipeline that loads ECG signals, makes preprocessing and trains a model for 50 epochs:
train_pipeline = (
ds.Pipeline()
.init_model("dynamic", DirichletModel, name="dirichlet", config=model_config)
.init_variable("loss_history", init_on_each_run=list)
.load(components=["signal", "meta"], fmt="wfdb")
.load(components="target", fmt="csv", src=LABELS_PATH)
.drop_labels(["~"])
.rename_labels({"N": "NO", "O": "NO"})
.flip_signals()
.random_resample_signals("normal", loc=300, scale=10)
.random_split_signals(2048, {"A": 9, "NO": 3})
.binarize_labels()
.train_model("dirichlet", make_data=concatenate_ecg_batch, fetches="loss", save_to=V("loss_history"), mode="a")
.run(batch_size=100, shuffle=True, drop_last=True, n_epochs=50)
)
Installation
CardIO
module is in the beta stage. Your suggestions and improvements are very welcome.
CardIO
supports python 3.5 or higher.
Installation as a python package
With pipenv:
pipenv install git+https://github.com/analysiscenter/cardio.git#egg=cardio
With pip:
pip3 install git+https://github.com/analysiscenter/cardio.git
After that just import cardio
:
import cardio
Installation as a project repository
When cloning repo from GitHub use flag --recursive
to make sure that batchflow
submodule is also cloned.
git clone --recursive https://github.com/analysiscenter/cardio.git
Citing CardIO
Please cite CardIO in your publications if it helps your research.
Khudorozhkov R., Illarionov E., Kuvaev A., Podvyaznikov D. CardIO library for deep research of heart signals. 2017.
@misc{cardio_2017_1156085,
author = {R. Khudorozhkov and E. Illarionov and A. Kuvaev and D. Podvyaznikov},
title = {CardIO library for deep research of heart signals},
year = 2017,
doi = {10.5281/zenodo.1156085},
url = {https://doi.org/10.5281/zenodo.1156085}
}