This model was created for participation in the Brain Tumor Segmentation Challenge (BraTS) 2018. The model is based on the corresponding paper, where authors present deep cascaded approach for automatic brain tumor segmentation. The paper describes modifications to 3D UNet architecture and specific augmentation strategy to efficiently handle multimodal MRI input. Besides this, the approach to enhance segmentation quality with context obtained from models of the same topology operating on downscaled data is introduced. Each input modality has its own encoder which are later fused together to produce single output segmentation.
Metric | Value |
---|---|
Type | Segmentation |
GFLOPs | 409.996 |
MParams | 38.192 |
Source framework | MXNet* |
The following accuracy metrics are measured on a brain tumor
training subset of the Medical Decathlon dataset.
Mean:
- Dice index for "overall": 92.4003%
- Dice index for "necrotic core / non-enhancing tumor": 71.467%
- Dice index for "edema": 82.0533%
- Dice index for "enhancing tumor": 72.7001%
Median:
- Dice index for "overall": 93.1653%
- Dice index for "necrotic core / non-enhancing tumor": 77.1611%
- Dice index for "edema": 85.3434%
- Dice index for "enhancing tumor": 84.5571%
The model takes as an input four MRI modalities T1
, T2
, T1ce
, Flair
. The inputs are cropped, resamped and z-score normalized. You can find additional information on the BraTS 2018 page and wiki.
In the preprocessing pipeline, all non-zero voxels are cropped and resampled to 128, 128, 128
resolution first. Then, each modality is z-score normalized separately. The input tensor is a concatenation of the four input modalities.
MR Image, name - data_crop
, shape - 1, 4, 128, 128, 128
, format is B, C, D, H, W
, where:
B
- batch sizeC
- channelD
- depthH
- heightW
- width
The channels are ordered as T1
, T2
, T1ce
, Flair
.
MR Image, name - data_crop
, shape - 1, 4, 128, 128, 128
, format is B, C, D, H, W
, where:
B
- batch sizeC
- channelD
- depthH
- heightW
- width
The channels are ordered as T1
, T2
, T1ce
, Flair
.
Probabilities of the given voxel to be in the corresponding class, name - softmax_lbl3
, shape - 1, 4, 128, 128, 128
, output data format is B, C, D, H, W
, where:
B
- batch sizeC
- channelD
- depthH
- heightW
- width
With the following channels: background
, necrotic core
, edema
and enhancing tumor
.
Probabilities of the given voxel to be in the corresponding class, name - softmax_lbl3
, shape - 1, 4, 128, 128, 128
, output data format is B, C, D, H, W
, where:
B
- batch sizeC
- channelD
- depthH
- heightW
- width
With the following channels: background
, necrotic core
, edema
and enhancing tumor
.
You can download models and if necessary convert them into OpenVINO™ IR format using the Model Downloader and other automation tools as shown in the examples below.
An example of using the Model Downloader:
omz_downloader --name <model_name>
An example of using the Model Converter:
omz_converter --name <model_name>
The model can be used in the following demos provided by the Open Model Zoo to show its capabilities:
The original model is distributed under the
Apache License, Version 2.0.
A copy of the license is provided in <omz_dir>/models/public/licenses/APACHE-2.0.txt
.