abhi1kumar/DEVIANT - Githubissues

# [DEVIANT: Depth EquiVarIAnt NeTwork for Monocular 3D Object Detection](https://arxiv.org/pdf/2207.10758.pdf) ### [KITTI Demo](https://www.youtube.com/watch?v=2D73ZBrU-PA) | [KITTI Eqv Error Demo](https://www.youtube.com/watch?v=70DIjQkuZvw) | [Waymo Demo](https://www.youtube.com/watch?v=46S_OGxYFOM) | [Project](http://cvlab.cse.msu.edu/project-deviant.html) | [Talk](https://www.youtube.com/watch?v=yDrLYjmER4M) | [Slides](https://docs.google.com/presentation/d/1sSH1ArzqWvyswgmqEJCXlxAJBaLY1qxzZX0w4NojUAA/edit?usp=sharing) | [Poster](https://docs.google.com/presentation/d/1NB5YuPNDhctkA2EHYGJ1NZYe6ttPsumIll4ef9BDji4/edit?usp=sharing) [![PWC](https://img.shields.io/endpoint.svg?url=https://paperswithcode.com/badge/deviant-depth-equivariant-network-for/monocular-3d-object-detection-on-kitti-cars)](https://paperswithcode.com/sota/monocular-3d-object-detection-on-kitti-cars?p=deviant-depth-equivariant-network-for) [![PWC](https://img.shields.io/endpoint.svg?url=https://paperswithcode.com/badge/deviant-depth-equivariant-network-for/3d-object-detection-from-monocular-images-on-6)](https://paperswithcode.com/sota/3d-object-detection-from-monocular-images-on-6?p=deviant-depth-equivariant-network-for) [![arXiv](http://img.shields.io/badge/arXiv-2207.10758-B31B1B.svg)](https://arxiv.org/abs/2207.10758) [![License: MIT](https://img.shields.io/badge/License-MIT-yellow.svg)](https://opensource.org/licenses/MIT) [![Visitors](https://api.visitorbadge.io/api/visitors?path=abhi1kumar%2FDEVIANT&labelColor=%23FFFFFF&countColor=%23721e82&style=flat)](https://visitorbadge.io/status?path=abhi1kumar%2FDEVIANT) [![GitHub Stars](https://img.shields.io/github/stars/abhi1kumar/DEVIANT?style=social)](https://github.com/abhi1kumar/DEVIANT)

Abhinav Kumar¹ · Garrick Brazil² · Enrique Corona³ · Armin Parchami³ · Xiaoming Liu¹
¹Michigan State University, ²FAIR, Meta AI, ³Ford Motor Company

in [ECCV 2022](https://eccv2022.ecva.net/)

Modern neural networks use building blocks such as convolutions that are equivariant to arbitrary 2D translations $(t_u, t_v)$. However, these vanilla blocks are not equivariant to arbitrary 3D translations $(t_x, t_y, t_z)$ in the projective manifold. Even then, all monocular 3D detectors use vanilla blocks to obtain the 3D coordinates, a task for which the vanilla blocks are not designed for. This paper takes the first step towards convolutions equivariant to arbitrary 3D translations in the projective manifold. Since the depth is the hardest to estimate for monocular detection, this paper proposes Depth EquiVarIAnt NeTwork (DEVIANT) built with existing scale equivariant steerable blocks. As a result, DEVIANT is equivariant to the depth translations $(t_z)$ in the projective manifold whereas vanilla networks are not. The additional depth equivariance forces the DEVIANT to learn consistent depth estimates, and therefore, DEVIANT achieves state-of-the-art monocular 3D detection results on KITTI and Waymo datasets in the image-only category and performs competitively to methods using extra information. Moreover, DEVIANT works better than vanilla networks in cross-dataset evaluation.

Much of the codebase is based on GUP Net. Some implementations are from GrooMeD-NMS and PCT. Scale Equivariant Steerable (SES) implementations are from SiamSE.

Citation

If you find our work useful in your research, please consider starring the repo and citing:

@inproceedings{kumar2022deviant,
   title={{DEVIANT: Depth EquiVarIAnt NeTwork for Monocular $3$D Object Detection}},
   author={Kumar, Abhinav and Brazil, Garrick and Corona, Enrique and Parchami, Armin and Liu, Xiaoming},
   booktitle={ECCV},
   year={2022}
}

Setup

Requirements
1. Python 3.7
2. PyTorch 1.10
3. Torchvision 0.11
4. Cuda 11.3
5. Ubuntu 18.04/Debian 8.9

This is tested with NVIDIA A100 GPU. Other platforms have not been tested. Clone the repo first. Unless otherwise stated, the below scripts and instructions assume the working directory is the directory DEVIANT:

git clone https://github.com/abhi1kumar/DEVIANT.git
cd DEVIANT

Cuda & Python

Build the DEVIANT environment by installing the requirements:

conda create --name DEVIANT --file conda_GUP_environment_a100.txt
conda activate DEVIANT
pip install opencv-python pandas

KITTI, nuScenes and Waymo Data

Follow instructions of data_setup_README.md to setup KITTI, nuScenes and Waymo as follows:

DEVIANT
├── data
│      ├── KITTI
│      │      ├── ImageSets
│      │      ├── kitti_split1
│      │      ├── training
│      │      │     ├── calib
│      │      │     ├── image_2
│      │      │     └── label_2
│      │      │
│      │      └── testing
│      │            ├── calib
│      │            └── image_2
│      │
│      ├── nusc_kitti
│      │      ├── ImageSets
│      │      ├── training
│      │      │     ├── calib
│      │      │     ├── image
│      │      │     └── label
│      │      │
│      │      └── validation
│      │            ├── calib
│      │            ├── image
│      │            └── label
│      │
│      └── waymo
│             ├── ImageSets
│             ├── training
│             │     ├── calib
│             │     ├── image
│             │     └── label
│             │
│             └── validation
│                   ├── calib
│                   ├── image
│                   └── label
│
├── experiments
├── images
├── lib
├── nuscenes-devkit        
│ ...

AP Evaluation

Run the following to generate the KITTI binaries corresponding to R40:

sudo apt-get install libopenblas-dev libboost-dev libboost-all-dev gfortran
sh data/KITTI/kitti_split1/devkit/cpp/build.sh

We finally setup the Waymo evaluation. The Waymo evaluation is setup in a different environment py36_waymo_tf to avoid package conflicts with our DEVIANT environment:

# Set up environment
conda create -n py36_waymo_tf python=3.7
conda activate py36_waymo_tf
conda install cudatoolkit=11.3 -c pytorch

# Newer versions of tf are not in conda. tf>=2.4.0 is compatible with conda.
pip install tensorflow-gpu==2.4
conda install pandas
pip3 install waymo-open-dataset-tf-2-4-0 --user

To verify that your Waymo evaluation is working correctly, pass the ground truth labels as predictions for a sanity check. Type the following:

/mnt/home/kumarab6/anaconda3/envs/py36_waymo_tf/bin/python -u data/waymo/waymo_eval.py --sanity

You should see AP numbers as 100 in every entry after running this sanity check.

Training

Train the model:

chmod +x scripts_training.sh
./scripts_training.sh

The current Waymo config files use the full val set in training. For Waymo models, we had subsampled Waymo validation set by a factor of 10 (4k images) to save training time as in DD3D. Change val_split_name from 'val' to 'val_small' in waymo configs to use subsampled Waymo val set.

Testing Pre-trained Models

Model Zoo

We provide logs/models/predictions for the main experiments on KITTI Val /KITTI Test/Waymo Val data splits available to download here.

Data_Splits	Method	Config (Run)	Weight /Pred	Metrics	All (0.7)	Easy (0.7)	Med (0.7)	Hard (0.7)	All (0.5)	Easy (0.5)	Med (0.5)	Hard (0.5)
KITTI Val	GUP Net	run_201	gdrive	AP40	-	21.10	15.48	12.88	-	58.95	43.99	38.07
KITTI Val	DEVIANT	run_221	gdrive	AP40	-	24.63	16.54	14.52	-	61.00	46.00	40.18
KITTI Test	DEVIANT	run_250	gdrive	AP40	-	21.88	14.46	11.89	-	-	-	-
Waymo Val	GUP Net	run_1050	gdrive	APH-L1	2.27	6.11	0.80	0.03	9.94	24.59	4.78	0.22
Waymo Val	DEVIANT	run_1051	gdrive	APH-L1	2.67	6.90	0.98	0.02	10.89	26.64	5.08	0.18

Testing

Make output folder in the DEVIANT directory:

mkdir output

Place models in the output folder as follows:

DEVIANT
├── output
│      ├── config_run_201_a100_v0_1
│      ├── run_221
│      ├── run_250
│      ├── run_1050
│      └── run_1051
│
│ ...

Then, to test, run the file as:

chmod +x scripts_inference.sh
./scripts_inference.sh

Cross-Dataset Evaluation of KITTI on nuScenes Frontal Val

See scripts_inference.sh

Qualitative Plots/Visualization

To get qualitative plots and visualize the predicted+GT boxes, type the following:

python plot/plot_qualitative_output.py --dataset kitti --folder output/run_221/results_test/data
python plot/plot_qualitative_output.py --dataset waymo --folder output/run_1051/results_test/data

Type the following to reproduce our other plots:

python plot/plot_sesn_basis.py
python plot/visualize_output_of_cnn_and_sesn.py

FAQ

Inference on older cuda version For inference on older cuda version, type the following before running inference:

source cuda_9.0_env

Correct Waymo version You should see a 16th column in each ground truth file inside data/waymo/validation/label/. This corresponds to the num_lidar_points_per_box. If you do not see this column, run:

cd data/waymo
python waymo_check.py

to see if num_lidar_points_per_box is printed. If nothing is printed, you are using the wrong Waymo dataset version and you should download the correct dataset version.

Cannot convert a symbolic Tensor (strided_slice:0) to a numpy array This error indicates that you're trying to pass a Tensor to a NumPy call". This means you have a wrong numpy version. Install the correct numpy as:

pip install numpy==1.19.5

Acknowledgements

We thank the authors of following awesome codebases:

Please also consider citing them.

Contributions

We welcome contributions to the DEVIANT repo. Feel free to raise a pull request.

↳ Stargazers

↳ Forkers

Contact

For questions, feel free to post here or drop an email to this address- abhinav3663@gmail.com