Monodepth2
This is the reference PyTorch implementation for training and testing depth estimation models using the method described in
Digging into Self-Supervised Monocular Depth Prediction
Clément Godard, Oisin Mac Aodha, Michael Firman and Gabriel J. Brostow
This code is for non-commercial use; please see the license file for terms.
If you find our work useful in your research please consider citing our paper:
@article{monodepth2,
title = {Digging into Self-Supervised Monocular Depth Prediction},
author = {Cl{\'{e}}ment Godard and
Oisin {Mac Aodha} and
Michael Firman and
Gabriel J. Brostow},
journal = {arXiv:1806.01260},
year = {2018}
}
⚙️ Setup
Assuming a fresh Anaconda distribution, you can install the dependencies with:
conda install pytorch=0.4.1 torchvision=0.2.1 -c pytorch
pip install tensorboardX==1.4
conda install opencv=3.3.1 # just needed for evaluation
We ran our experiments with PyTorch 0.4.1, CUDA 9.1, Python 3.6 and Ubuntu 18.04. We have also successfully trained models with PyTorch 1.0, and our code is compatible with Python 2.7.
🖼️ Prediction for a single image
You can predict depth for a single image with:
python test_simple.py --image_path assets/test_image.jpg --model_name mono+stereo_640x192
On its first run this will download the mono+stereo_640x192
pretrained model (99MB) into the models/
folder.
We provide the following options for --model_name
:
--model_name |
Training modality | Native model resolution | KITTI abs. rel. error | delta < 1.25 |
---|---|---|---|---|
mono_640x192 |
Mono | 640 x 192 | 0.115 | 0.877 |
stereo_640x192 |
Stereo | 640 x 192 | 0.109 | 0.864 |
mono+stereo_640x192 |
Mono + Stereo | 640 x 192 | 0.106 | 0.874 |
mono_1024x320 |
Mono | 1024 x 320 | 0.115 | 0.879 |
stereo_1024x320 |
Stereo | 1024 x 320 | 0.107 | 0.874 |
mono+stereo_1024x320 |
Mono + Stereo | 1024 x 320 | 0.106 | 0.876 |
💾 KITTI training data
You can download the entire raw KITTI dataset by running:
wget -i splits/kitti_archives_to_download.txt -P kitti_data/
Then unzip with
cd kitti_data
unzip "*.zip"
cd ..
Warning: it weighs about 175GB, so make sure you have enough space to unzip too!
Our default settings expect that you have converted the png images to jpeg with this command, which also deletes the raw KITTI .png
files:
find kitti_data/ -name '*.png' | parallel 'convert -quality 92 -sampling-factor 2x2,1x1,1x1 {.}.png {.}.jpg && rm {}'
or you can skip this conversion step and train from raw png files by adding the flag --png
when training, at the expense of slower load times.
The above conversion command creates images which match our experiments, where KITTI .png
images were converted to .jpg
on Ubuntu 16.04 with default chroma subsampling 2x2,1x1,1x1
.
We found that Ubuntu 18.04 defaults to 2x2,2x2,2x2
, which gives different results, hence the explicit parameter in the conversion command.
You can also place the KITTI dataset wherever you like and point towards it with the --data_path
flag during training and evaluation.
Splits
The train/test/validation splits are defined in the splits/
folder.
By default, the code will train a depth model using Zhou's subset of the standard Eigen split of KITTI, which is designed for monocular training.
You can also train a model using the new benchmark split or the odometry split by setting the --split
flag.
Custom dataset
You can train on a custom monocular or stereo dataset by writing a new dataloader class which inherits from MonoDataset
– see the KITTIDataset
class in datasets/kitti_dataset.py
for an example.
⏳ Training
By default models and tensorboard event files are saved to ~/tmp/<model_name>
.
This can be changed with the --log_dir
flag.
Monocular training:
python train.py --model_name mono_model
Stereo training:
Our code defaults to using Zhou's subsampled Eigen training data. For stereo-only training we have to specify that we want to use the full Eigen training set – see paper for details.
python train.py --model_name stereo_model \
--frame_ids 0 --use_stereo --split eigen_full
Monocular + stereo training:
python train.py --model_name mono+stereo_model \
--frame_ids 0 -1 1 --use_stereo
GPUs
The code can only be run on a single GPU.
You can specify which GPU to use with the CUDA_VISIBLE_DEVICES
environment variable:
CUDA_VISIBLE_DEVICES=2 python train.py --model_name mono_model
All our experiments were performed on a single NVIDIA Titan Xp.
Training modality | Approximate GPU memory | Approximate training time |
---|---|---|
Mono | 9GB | 12 hours |
Stereo | 6GB | 8 hours |
Mono + Stereo | 11GB | 15 hours |
💽 Finetuning a pretrained model
Add the following to the training command to load an existing model for finetuning:
python train.py --model_name finetuned_mono --load_weights_folder ~/tmp/mono_model/models/weights_19
🔧 Other training options
Run python train.py -h
(or look at options.py
) to see the range of other training options, such as learning rates and ablation settings.
📊 KITTI evaluation
To prepare the ground truth depth maps run:
python export_gt_depth.py --data_path kitti_data --split eigen
python export_gt_depth.py --data_path kitti_data --split eigen_benchmark
...assuming that you have placed the KITTI dataset in the default location of ./kitti_data/
.
The following example command evaluates the epoch 19 weights of a model named mono_model
:
python evaluate_depth.py --load_weights_folder ~/tmp/mono_model/models/weights_19/ --eval_mono
For stereo models, you must use the --eval_stereo
flag (see note below):
python evaluate_depth.py --load_weights_folder ~/tmp/stereo_model/models/weights_19/ --eval_stereo
If you train your own model with our code you are likely to see slight differences to the publication results due to randomization in the weights initialization and data loading.
An additional parameter --eval_split
can be set.
The three different values possible for eval_split
are explained here:
--eval_split |
Test set size | For models trained with... | Description |
---|---|---|---|
eigen |
697 | --split eigen_zhou (default) or --split eigen_full |
The standard Eigen test files |
eigen_benchmark |
652 | --split eigen_zhou (default) or --split eigen_full |
Evaluate with the improved ground truth from the new KITTI depth benchmark |
benchmark |
500 | --split benchmark |
The new KITTI depth benchmark test files. |
Because no ground truth is available for the new KITTI depth benchmark, no scores will be reported when --eval_split benchmark
is set.
Instead, a set of .png
images will be saved to disk ready for upload to the evaluation server.
External disparities evaluation
Finally you can also use evaluate_depth.py
to evaluate raw disparities (or inverse depth) from other methods by using the --ext_disp_to_eval
flag:
python evaluate_depth.py --ext_disp_to_eval ~/other_method_disp.npy
📷📷 Note on stereo evaluation
Our stereo models are trained with an effective baseline of 0.1
units, while the actual KITTI stereo rig has a baseline of 0.54m
. This means a scaling of 5.4
must be applied for evaluation.
In addition, for models trained with stereo supervision we disable median scaling.
Setting the --eval_stereo
flag when evaluating will automatically disable median scaling and scale predicted depths by 5.4
.
We include code for evaluating poses predicted by models trained with --split odom
.
For this evaluation, the KITTI odometry dataset (color, 65GB) and ground truth poses zip files must be downloaded. As above, we assume that the pngs have been converted to jpgs.
If this data has been unzipped to folder kitti_odom
, a model can be evaluated with:
python evaluate_pose.py --eval_split odom_9 --load_weights_folder ./odom_split.M/models/weights_29 --data_path kitti_odom/
python evaluate_pose.py --eval_split odom_10 --load_weights_folder ./odom_split.M/models/weights_29 --data_path kitti_odom/
📦 Precomputed results
You can download our precomputed disparity predictions from the following links:
Training modality | Input size | .npy filesize |
Eigen disparities |
---|---|---|---|
Mono | 640 x 192 | 343 MB | Download 🔗 |
Stereo | 640 x 192 | 343 MB | Download 🔗 |
Mono + Stereo | 640 x 192 | 343 MB | Download 🔗 |
Mono | 1024 x 320 | 914 MB | Download 🔗 |
Stereo | 1024 x 320 | 914 MB | Download 🔗 |
Mono + Stereo | 1024 x 320 | 914 MB | Download 🔗 |
👩⚖️ License
Copyright © Niantic, Inc. 2019. Patent Pending. All rights reserved. Please see the license file for terms.