This repository contains the code for "MobileStereoNet: Towards Lightweight Deep Networks for Stereo Matching", presented at WACV 2022 [Paper] [Supp] [arXiv] [Video Presentation].
MobileStereoNets are trained and tested using SceneFlow (SF), KITTI and DrivingStereo (DS) datasets.
In the following tables, the first columns show the training sets. For instance, in the case of "SF + KITTI2015", the model
is firstly pretrained on the SceneFlow dataset, and then finetuned on KITTI images.
The results are reported in End-point Error (EPE); the lower, the better.
Note that some experiments evaluate the zero-shot cross-dataset generalizability, e.g. when the model is trained on "SF + DS" and evaluated on "KITTI2015 val" or "KITTI2012 train".
The related trained models are provided in the tables as hyperlinks.
- 2D-MobileStereoNet
SF test | DS test | KITTI2015 val | KITTI2012 train | |
---|---|---|---|---|
SF | 1.14 | 6.59 | 2.42 | 2.45 |
DS | - | 0.67 | 1.02 | 0.96 |
SF + DS | - | 0.73 | 1.04 | 1.04 |
SF + KITTI2015 | - | 1.41 | 0.79 | 1.18 |
DS + KITTI2015 | - | 0.79 | 0.65 | 0.91 |
SF + DS + KITTI2015 | - | 0.83 | 0.68 | 0.90 |
- 3D-MobileStereoNet
SF test | DS test | KITTI2015 val | KITTI2012 train | |
---|---|---|---|---|
SF | 0.80 | 4.50 | 10.30 | 9.38 |
DS | - | 0.60 | 1.16 | 1.14 |
SF + DS | - | 0.57 | 1.12 | 1.10 |
SF + KITTI2015 | - | 1.53 | 0.65 | 0.90 |
DS + KITTI2015 | - | 0.65 | 0.60 | 0.85 |
SF + DS + KITTI2015 | - | 0.62 | 0.59 | 0.83 |
Predictions of difference networks
Leaderboard
2D-MobileStereoNet on the leaderboard
3D-MobileStereoNet on the leaderboard
Requirements for computing the complexity by two methods:
pip install --upgrade git+https://github.com/sovrasov/flops-counter.pytorch.git
pip install --upgrade git+https://github.com/Lyken17/pytorch-OpCounter.git
pip install onnx
Run the following command to see the complexity in terms of number of operations and parameters.
python cost.py
You can also compute the complexity of each part of the network separately. For this, the input size of each module has been written in cost.py
.
The code is tested on:
- Ubuntu 18.04
- Python 3.6
- PyTorch 1.4.0
- Torchvision 0.5.0
- CUDA 10.0
conda env create --file mobilestereonet.yml
conda activate mobilestereonet
Download the finalpass images and the disparity data for SceneFlow FlyingThings3D, Driving and Monkaa. For both, image and disparity data, move the directories in the TRAIN and TEST directories of the Driving and Monkaa Dataset (15mm_focallength/35mm_focallength for Driving, funnyworld_x2 etc. for Monkaa) into the FlyingThings3D TRAIN and TEST directories, respectively.
It should look like this:
frames_finalpass
│
└───TEST
│ │
│ └───A
│ └───B
│ └───C
│
│
└───TRAIN
│ │
│ └───15mm_focallength
│ └───35mm_focallength
│ └───A
│ └───a_rain_of_stones_x2
│ └─── ..
Set a variable for the dataset directory, e.g. DATAPATH="/Datasets/SceneFlow/"
. Then, run train.py
as below:
python train.py --dataset sceneflow --datapath $DATAPATH --trainlist ./filenames/sceneflow_train.txt --testlist ./filenames/sceneflow_test.txt --epochs 20 --lrepochs "10,12,14,16:2" --batch_size 8 --test_batch_size 8 --model MSNet2D
python train.py --dataset kitti --datapath $DATAPATH --trainlist ./filenames/kitti15_train.txt --testlist ./filenames/kitti15_val.txt --epochs 400 --lrepochs "200:10" --batch_size 8 --test_batch_size 8 --loadckpt ./checkpoints/pretrained.ckpt --model MSNet2D
The arguments in both cases can be set differently depending on the model, dataset and hardware resources.
The following script creates disparity maps for a specified model:
python prediction.py --datapath $DATAPATH --testlist ./filenames/kitti15_test.txt --loadckpt ./checkpoints/finetuned.ckpt --dataset kitti --colored True --model MSNet2D
The implementation of this code is based on PSMNet and GwcNet. Also, we would like to thank the authors of THOP: PyTorch-OpCounter, Flops counter and KITTI python utils.
This project is released under the Apache 2.0 license.
If you use this code, please cite this paper:
@inproceedings{shamsafar2022mobilestereonet,
title={MobileStereoNet: Towards Lightweight Deep Networks for Stereo Matching},
author={Shamsafar, Faranak and Woerz, Samuel and Rahim, Rafia and Zell, Andreas},
booktitle={Proceedings of the IEEE/CVF Winter Conference on Applications of Computer Vision},
pages={2417--2426},
year={2022}
}
The repository is maintained by Faranak Shamsafar.
[email protected]