Check our project page for additional information.
OSVOS is a method that tackles the task of semi-supervised video object segmentation. It is based on a fully-convolutional neural network architecture that is able to successively transfer generic semantic information, learned on ImageNet, to the task of foreground segmentation, and finally to learning the appearance of a single annotated object of the test sequence (hence one-shot). Experiments on DAVIS 2016 show that OSVOS is faster than currently available techniques and improves the state of the art by a significant margin (79.8% vs 68.0%).
This TensorFlow code is a posteriori implementation of OSVOS and it does not contain the boundary snapping branch. The results published in the paper were obtained using the Caffe version that can be found at OSVOS-caffe.
Clone the OSVOS-TensorFlow repository
git clone https://github.com/scaelles/OSVOS-TensorFlow.git
Install if necessary the required dependencies:
pip install tensorflow-gpu
) along with standard dependenciesDownload the parent model from here (55 MB) and unzip it under models/
(It should create a folder named 'OSVOS_parent').
All the steps to re-train OSVOS are provided in this repository. In case you would like to test with the pre-trained models, you can download them from here (2.2GB) and unzip them under models/
(It should create a folder for every model).
Edit in file osvos_demo.py
the 'User defined parameters' (eg. gpu_id, train_model, etc).
Run python osvos_demo.py
.
It is possible to work with all sequences of DAVIS 2016 just by creating a soft link (ln -s /path/to/DAVIS/ DAVIS
) in the root folder of the project.
ln -s /path/to/DAVIS/ DAVIS
) if you have it somewhere else.models/
.osvos_parent_demo.py
.python osvos_parent_demo.py
. This step takes 20 hours to train (Titan-X Pascal), and ~15GB for loading data and online data augmentation. Change dataset.py accordingly, to adjust to a less memory-intensive setup.Have a happy training!
@Inproceedings{Cae+17,
Title = {One-Shot Video Object Segmentation},
Author = {S. Caelles and K.K. Maninis and J. Pont-Tuset and L. Leal-Taix\'e and D. Cremers and L. {Van Gool}},
Booktitle = {Computer Vision and Pattern Recognition (CVPR)},
Year = {2017}
}
If you encounter any problems with the code, want to report bugs, etc. please contact me at scaelles[at]vision[dot]ee[dot]ethz[dot]ch.