marijavella / mri-tvtv

Python 3.x code to reproduce the experiments in

Overcoming Measurement Inconsistency in Deep Learning for Linear Inverse Problems: Applications in Medical Imaging

Marija Vella, João F. C. Mota
Accepted to ICASSP 2021

Deep learning (DL) methods are currently the natural choice for solving linear inverse problems. They have been applied to super-resolve and restore images, as well as to reconstruct MR and CT images. DL based methods are able to produce photo-realistic outputs but cannot always guarantee data consistency. Our method enforces this consistency by post-processing the output from a DL based method by solving an optimization problem termed as TV-TV minimization. We higlight the relationship between data consistency and reconstruction quality by running experiments on magnetic resonance images (MRI).

Diagram of our method:

Given a measurement image and the corresponding reconstructed output w from a MR reconstruction method, the proposed post-processing step guarantees data consistency and improves the quality of w. It achieves that by solving TV-TV minimization:

Note that this repo is optimized to give faster execution times rather than better data consistency. The code used in the paper optimizes the consistency resulting in longer running times. The only difference is that the tolerance in the conjugate gradient method is set to 10e-2 in this repo while to obtain the results in the paper, we use 10e-5. This can be easily modified in line 78 in TVTV_Solver.py.

Clone this repository and run the demo which takes a sample image from the brain dataset and post processes it with TV-TV minimization

git clone https://github.com/marijavella/mri-tvtv
cd mri-tvtv
python demo.py

We consider two MRI acquisition models: multi-channel (MoDL) and dyanmic MRI (CRNN). The first configuration extracts information from multiple coils while the latter uses a single coil.

To replicate the experiments for MoDL you can use the presaved outputs from MoDL and TV-TV by runing:

git clone https://github.com/marijavella/tvtv-mri
python test.py --presaved True

To generate the outputs from MoDL and TV-TV by running the whole framework use:

git clone https://github.com/marijavella/tvtv-mri
python test.py 

Please check test.py for the different configuration settings accepted.

The brain dataset used to test this network can be downloaded from here. Then place this in the data folder.

git clone https://github.com/marijavella/tvtv-mri
python test.py --network crnn  --beta 0.8 --nsamples 30 --crop False --multi_coil False

The sampling mask are randomly generated, to obtain the same results as in the paper, by default the used mask is loaded. If you would like to generate a random mask on every run kindly comment out line 80 in uitls/compressed_sensing.py.

The provided cardiac dataset can be also downloaded from here.

To install the required libraries

pip install -r requirements.txt

There are three main folders:

• data: contains the brain and cardiac datasets used for the experiments.

• models: contain the learned parameters for both networks

• utils: contains some functions required to calculate and display results, synthesize measurement images and matrix multiplications for TV-TV.

Other folders:

• cascadenet_pytorch: model of CRNN.

• Brain_iter100_10e-5: saved results from previous runs.

The main scripts are:

• demo.py: script with default settings to run a quick experiment on a single image based on MoDL.

• test.py: testing code that allows different.

• TVTV_Solver.py: TV-TV solver code.

Our code makes use of the Github repositories of MoDL and CRNN. The latter has been used according to the Apache License, Version 2.0 license.

Vella, M. & Mota, J.F.C. Overcoming Measurement Inconsistency in Deep Learning for Linear Inverse Problems: Applications in Medical Imaging. ArXiv 

The code is provided to be able to replicate our research. If you encounter and errors or would like to give any suggestions kindly contact me directly on mv37@hw.ac.uk.