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Knowing what you know - Bayesian Neural Network for brain parcellation and uncertainty estimation

Paper, code, and model corresponding to preprint, which is now published.

Cite: McClure P, Rho N, Lee JA, Kaczmarzyk JR, Zheng CY, Ghosh SS, Nielson DM, Thomas AG, Bandettini P and Pereira F (2019) Knowing What You Know in Brain Segmentation Using Bayesian Deep Neural Networks. Front. Neuroinform. 13:67. doi:10.3389/fninf.2019.00067

In-site segmentation results Figure: In-site segmentation results for the spike-and-slab dropout (SSD) network for a test subject with average Dice performance. The columns show, respectively, the structural image used as input, the FreeSurfer segmentation used as a prediction target, the prediction made by our network, the voxels where there was a mismatch between prediction and target, and the prediction uncertainty at each voxel.

To run using singularity, first pull the image:

singularity pull docker://neuronets/kwyk:latest-gpu

You have a few options when running the image. To see them call help.

singularity run -B $(pwd):/data -W /data --nv kwyk_latest-gpu.sif --help

The models correspond to:

  1. Spike-and-slab dropout (bvwn_multi_prior)
  2. MC Bernoulli dropout (bwn_multi)
  3. MAP (bwn)

Here is an example with the spike and slab dropout.

singularity run -B $(pwd):/data -W /data --nv kwyk_latest-gpu.sif -m bvwn_multi_prior -n 2 \
  --save-variance --save-entropy T1_001.nii.gz output

Note: If you already have FREESURFER environment variables in your shell, these may interfere with the ones inside the container. To isolate the container further please add the -e flag at the beginning (singularity run -e ...) to suppress any environment variables from being pulled into the container.

This will generate two sets of files output_*.nii.gz and output_*_orig.nii.gz. The first set consists of results in conformed FreeSurfer space. The second set will correspond to the original input space.

  1. output_means: This file contains the labels
  2. output_variance: This file contains the variance in labeling over multiple samplings.
  3. output_entropy: This file contains the estimated entropy at each voxel.

For now, if output files exist, the program will not override them.

Docker usage example

Instead of singularity with GPU, once can also use docker directly. This is an example with a CPU. Note that the CPU-based run is significantly slower.

docker run -it --rm -v $(pwd):/data neuronets/kwyk:latest-cpu -m bvwn_multi_prior \
  --save-entropy T1_001.nii.gz output

The above examples assume there is a file named T1_001.nii.gz in $(pwd).

Docker hub tags

The docker hub tags follow the following naming scheme:

  • master-gpu: gpu version of current github master
  • latest-gpu: gpu version of latest release
  • SEMVER-gpu: gpu version of semantically versioned release

for cpu versions replace gpu with cpu

nobrainer

This model is based on an earlier version of the nobrainer framework. This repository will be updated when the code is transitioned to the new model.

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Knowing what you know - Bayesian brain parcellation

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