This topic demonstrates how to run the 3D Segmentation Demo, which segments 3D images using 3D convolutional networks.
On startup, the demo reads command-line parameters and loads a model and images to OpenVINO™ Runtime plugin.
NOTE: By default, Open Model Zoo demos expect input with BGR channels order. If you trained your model to work with RGB order, you need to manually rearrange the default channels order in the demo application or reconvert your model using the Model Optimizer tool with the
--reverse_input_channels
argument specified. For more information about the argument, refer to When to Reverse Input Channels section of [Embedding Preprocessing Computation](@ref openvino_docs_MO_DG_Additional_Optimization_Use_Cases).
For demo input image or video files, refer to the section Media Files Available for Demos in the Open Model Zoo Demos Overview.
The list of models supported by the demo is in <omz_dir>/demos/3d_segmentation_demo/python/models.lst
file.
This file can be used as a parameter for Model Downloader and Converter to download and, if necessary, convert models to OpenVINO IR format (*.xml + *.bin).
An example of using the Model Downloader:
omz_downloader --list models.lst
An example of using the Model Converter:
omz_converter --list models.lst
- brain-tumor-segmentation-0002
NOTE: Refer to the tables Intel's Pre-Trained Models Device Support and Public Pre-Trained Models Device Support for the details on models inference support at different devices.
Run the application with the -h
or --help
option to see the usage message:
usage: 3d_segmentation_demo.py [-h] -i PATH_TO_INPUT_DATA -m PATH_TO_MODEL -o
PATH_TO_OUTPUT [-d TARGET_DEVICE] [-nii]
[-nthreads NUMBER_THREADS]
[-s [SHAPE [SHAPE ...]]] [-ms N1,N2,N3,N4]
[--full_intensities_range]
Options:
-h, --help Show this help message and exit.
-i PATH_TO_INPUT_DATA, --path_to_input_data PATH_TO_INPUT_DATA
Required. Path to an input folder with NIfTI
data/NIFTI file/TIFF file
-m PATH_TO_MODEL, --path_to_model PATH_TO_MODEL
Required. Path to an .xml file with a trained model
-o PATH_TO_OUTPUT, --path_to_output PATH_TO_OUTPUT
Required. Path to a folder where output files will be
saved
-d TARGET_DEVICE, --target_device TARGET_DEVICE
Optional. Specify a target device to infer on: CPU, GPU.
Use "-d HETERO:<comma separated devices list>" format
to specify HETERO plugin.
-nii, --output_nifti Show output inference results as raw values
-nthreads NUMBER_THREADS, --number_threads NUMBER_THREADS
Optional. Number of threads to use for inference on
CPU (including HETERO cases).
-s [SHAPE [SHAPE ...]], --shape [SHAPE [SHAPE ...]]
Optional. Specify shape for a network
-ms N1,N2,N3,N4, --mri_sequence N1,N2,N3,N4
Optional. Transfer MRI-sequence from dataset order to the network order.
--full_intensities_range
Optional. Take intensities of the input image in a full range.
Running the application with the empty list of options yields the usage message and an error message.
For example, to do inference on a 3D TIFF image using a trained network with multiple outputs on CPU, run the following command:
python3 3d_segmentation_demo.py -i <path_to_image>/inputImage.tiff -m <path_to_model>/brain-tumor-segmentation-0002.xml -d CPU -o <path_to_output> -ms 1,2,3,0 --full_intensities_range
For example, to do inference on 3D NIfTI images using a trained network with multiple outputs on CPU and save output TIFF and NIFTI images, run the following command:
python3 3d_segmentation_demo.py -i <path_to_nifti_images> -m <path_to_model>/brain-tumor-segmentation-0002 -d CPU -o <path_to_output> -nii -ms 1,2,3,0 --full_intensities_range
For example, to do inference on a single 3D NIfTI image and save an output TIFF image, run the following command:
python3 3d_segmentation_demo.py -i <path_to_nifti_image>/PackedImage.nii -m <path_to_model>/brain-tumor-segmentation-0002 -d CPU -o <path_to_output> -ms 1,2,3,0 --full_intensities_range
-ms
option aligns input modalities that depend on a dataset. For example, Medical Decathlon brain tumor segmentation data modalities follow in different order than it's required by nets. To make a correct order using Medical Decathlon brain tumor data the correct option is 1,2,3,0
for brain-tumor-segmentation-0002
.
python3 3d_segmentation_demo.py -i <path_to_nifti_images> -m <path_to_model>/brain-tumor-segmentation-0002 -d CPU -o <path_to_output> -nii -ms 1,2,3,0 --full_intensities_range
--full_intensities_range
option is related to preprocessing of input data. It can be different for different models, for example, brain-tumor-segmentation-0002
just requires z-score normalization in a full range. So to use brain-tumor-segmentation-0002
model, the flag --full_intensities_range
should be set.
The demo outputs a multipage TIFF image and a NIFTI archive. The demo reports
- Latency: total processing time required to process input data (from reading the data to displaying the results).