StrainNet estimates subpixelic displacement and strain fields from pairs of reference and deformed images of a flat speckled surface, as Digital Image Correlation (DIC) does. See paper [1] for details.
If you find this implementation useful, please cite reference [1]. Also, make sure to adhere to the licensing terms of the authors.
Install the following modules:
pytorch >= 1.2
torchvision
tensorboardX
imageio
argparse
path.py
numpy
pandas
tqdm
- Generate Speckle dataset 1.0 or 2.0
- Specify the paths to: Train dataset, Test dataset, Train_annotations.csv, and Test_annotations.csv in the file Train.py (exactly in the definition of train_set and test_set)
- Execute the following commands
python Train.py --arch StrainNet_h
python Train.py --arch StrainNet_f
The images pairs should be in the same location, with the name pattern *1.ext *2.ext
python inference.py /path/to/input/images/ --arch StrainNet_h --pretrained /path/to/pretrained/model
python inference.py /path/to/input/images/ --arch StrainNet_f --pretrained /path/to/pretrained/model The pretrained models of StrainNet-h and StrainNet_f are available here
Execute the following commands in the StrainNet directory (please also copy here the tar files if you use the pretrained models)
python inference.py ../Star_frames/Noiseless_frames/ --arch StrainNet_h --pretrained StrainNet-h.pth.tar
python inference.py ../Star_frames/Noiseless_frames/ --arch StrainNet_f --pretrained StrainNet-f.pth.tarThe output of inference.py can be found in Star_frames/Noiseless_frames/flow/
You can use Script_flow.m to visualize the obtained displacements
| Reference image |  |
|---|---|
| Reference displacement |  |
| Retrieved by StrainNet-h |  |
| Retrieved by StrainNet-f |  |
[1] S. Boukhtache, K. Abdelouahab, F. Berry, B. Blaysat, M. Grédiac and F. Sur. "When Deep Learning Meets Digital Image Correlation", Optics and Lasers in Engineering, Volume 136, 2021. Available at:
https://www.sciencedirect.com/science/article/pii/S0143816620306588?via%3Dihub
https://hal.archives-ouvertes.fr/hal-02933431
https://arxiv.org/abs/2009.03993
This code is based on the Pytorch implmentation of FlowNetS from FlowNetPytorch