pip install numpy opencv-python
pip install bev-toolboxWe provide an example with a sample from Waymo dataset to introduce the usage of this toolbox.
import cv2
import numpy as np
from bev_toolbox.data_aug import RandomScaleImageMultiViewImage
# Declare an augmentation pipeline
transform = RandomScaleImageMultiViewImage(scales=[0.9, 1.0, 1.1])
# multiple-view images
imgs = [cv2.imread(f'example/cam{i}_img.jpg') for i in range(5)]
# intrinsic parameters of cameras
cam_intr = [np.load(f'example/cam{i}_intrinsic.npy') for i in range(5)]
# extrinsic parameters of cameras
cam_extr = [np.load(f'example/cam{i}_extrinsic.npy') for i in range(5)]
# transformations from lidar to image
lidar2img = [np.load(f'example/cam{i}_lidar2img.npy') for i in range(5)]
# Augment an image
imgs_new, cam_intr_new, lidar2img_new = transform(imgs, cam_intr, cam_extr, lidar2img)For more details like the coordinate systems or visualization, please refer to example.md
We provide wrappers of this BEV toolbox for mmdet3d and detectron2.
- Add the following code to train_video.py or test_video.py.
from bev_toolbox.init_toolbox import init_toolbox_mmdet3d
init_toolbox_mmdet3d()
- Use functions in the toolbox just like mmdet3d. For example, you can just add
RandomScaleImageMultiViewImageto the configure file.
train_pipeline = [
...
dict(type='RandomScaleImageMultiViewImage', scales=[0.9, 1.0, 1.1]),
...
]We plan to make this toolbox compatible with detectron2 in the future.
We provide a suitable playground on the Waymo dataset, including hands-on tutorial and small-scale dataset (1/5 WOD in kitti format) to validate idea.
Please refer to waymo_setup.md about how to run experiments on Waymo.
We provide the improvement of each trick compared with the baseline on the Waymo validation set. All the models are trained with 1/5 training data of Waymo v1.3 which is represented as Waymo mini here. It's worthy noting that the results were run on data with png format. We are revalidating these results on the data with jpg format. So, the actual performance may be different.
✓: DONE, ☐: TODO.
| Backbone | Head | Train data | Trick and corresponding config | LET-mAPL | LET-mAPH | L1/mAPH (Car) | Status |
|---|---|---|---|---|---|---|---|
| ResNet101 | DETR | Waymo mini | Baseline | 34.9 | 46.3 | 25.5 | ✓ |
| ResNet101 | DETR | Waymo mini | Multi-scale resize, Flip | 35.6 | 46.9 | 26.8 | ✓ |
| ResNet101 | DETR | Waymo mini | Conv offset in TSA | 35.9 | 48.1 | 25.6 | ☐ |
| ResNet101 | DETR | Waymo mini | Deformable view encoder | 36.1 | 48.1 | 25.9 | ☐ |
| ResNet101 | DETR | Waymo mini | Corner pooling | 35.6 | 46.9 | 26.0 | ☐ |
| ResNet101 | DETR | Waymo mini | 2x BEV scale] | - | - | 25.5 | ☐ |
| ResNet101 | DETR | Waymo mini | Sync BN | - | - | 25.5 | ☐ |
| ResNet101 | DETR | Waymo mini | EMA | - | - | 25.6 | ☐ |
| ResNet101 | DETR | Waymo mini | 2d auxiliary loss | 35.3 | 47.4 | 24.6 | ☐ |
| ResNet101 | DETR | Waymo mini | 2d auxiliary loss, Learnable loss weight | 36.2 | 48.1 | 25.4 | ☐ |
| ResNet101 | DETR | Waymo mini | Smooth L1 loss | - | - | 26.2 | ☐ |
| ResNet101 | DETR | Waymo mini | Label smoothing | 36.0 | 46.7 | - | ☐ |
Literature Survey
- Add new papers.
BEV toolbox
- Data augmentation methods for BEV perception
- Random horizontal flip
- Random scale
- Grid mask
- New data augmentation
- Integrate more tricks
- Post-process
- Test-time Augmentation
- Weighted Box Fusion
- Two-stage Ensemble
- BEV Encoder
- Loss Family
- Post-process
- Add Visualization in BEV
- Improve the current implementations.
- Add documentation to introduce the APIs of the toolbox