Awesome
Reinforcement learning environment for Active MRI Acquisition
A Reinforcement learning environment to facilitate research on
active MRI acquisition.
The goal of active-mri-acquisition
is to provide a convenient gym-like interface to test
the use of reinforcement learning and planning algorithms for subject-specific acquisition
sequences of MRI scans.
This repository also contains scripts to replicate the experiments performed in:
The data to produce the plot in Figure 4 can also be found at this link. Once extracted, the folder structure should be easy to understand, corresponding to acceleration case, policy, and metric, and one file per folder. The file has a dictionary on which doing loaded_dict[time_step]["all"][image_idx]
gives you the results for the policy at the time step and image index indicated.
See also
Getting started
Installation
active-mri-acquisition
is a Python 3.7+ library. We suggest creating a new Python environment
for this project, for example by running
conda create --name activemri python=3.7
Also, make sure your Python environment has PyTorch installed with the appropriate CUDA configuration for your system (we have tested it using CUDA 9.2 and 10.1).
Then, to install active-mri-acquisition
, clone this repository, then run
cd active-mri-acquisition
pip install -e .
If you also want the developer tools for contributing, run
pip install -e ".[dev]"
To test your installation, run
python -m pytest tests/core
Configuring the environment
To run the fastMRI environments, you need to configure a couple of things. If you try to run any of the
default environments for the first time (for example, see our intro notebook),
you will see a message asking you to add some entries to the defaults.json
file. This file will
be created automatically the first time you run it, located at $USER_HOME/.activemri/defaults.json
.
It will look like this:
{
"data_location": "",
"saved_models_dir": ""
}
To run the environments, you need to fill these two entries. Entry "data_location"
must point to
the root folder in which you will store the fastMRI dataset (for instructions on how to download
the dataset, please visit https://fastmri.med.nyu.edu/). Entry "saved_models_dir"
indicates the
folder where the environment will look for the checkpoints of reconstruction models.
Documentation
For instructions on how to run the environment, evaluating baselines, and adding your own reconstruction models, please see our documentation.
Running baselines from MICCAI'20 paper
To run evaluation of the algorithms considered in the paper, please take a look at the example scripts.
Citing
@inproceedings{pineda2020activemri,
author = {Luis Pineda and Sumana Basu and Adriana Romero and Roberto Calandra and Michal Drozdzal},
title = {{Active MR k-space Sampling with Reinforcement Learning}},
booktitle = {{International Conference on Medical Image Computing and Computer-Assisted
Intervention}},
year = {2020},
publisher="Springer International Publishing",
}
License
active-mri-acquisition
is MIT licensed, as found in the
LICENSE file.