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Code for "Learning to Segment Rigid Motions from Two Frames". CVPR 2021.

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rigidmask

Code for "Learning to Segment Rigid Motions from Two Frames".

** This is a partial release with inference and evaluation code. The project is still being tested and documented. There might be implemention changes in the future release. Thanks for your interest.

Visuals on Sintel/KITTI/Coral (not temporally smoothed):

If you find this work useful, please consider citing:

@inproceedings{yang2021rigidmask,
title={Learning to Segment Rigid Motions from Two Frames},
author={Yang, Gengshan and Ramanan, Deva},
booktitle={CVPR},
year={2021}
}

Data and precomputed results

Download

Additional inputs (coral reef images) and precomputed results are hosted on google drive. Run (assuming you have installed gdown)

gdown https://drive.google.com/uc?id=1Up2cPCjzd_HGafw1AB2ijGmiKqaX5KTi -O ./input.tar.gz
gdown https://drive.google.com/uc?id=12C7rl5xS66NpmvtTfikr_2HWL5SakLVY -O ./rigidmask-sf-precomputed.zip
tar -xzvf ./input.tar.gz 
unzip ./rigidmask-sf-precomputed.zip -d precomputed/

To compute the results in Tab.1, Tab.2 on KITTI,

modelname=rigidmask-sf
python eval/eval_seg.py  --path precomputed/$modelname/  --dataset 2015
python eval/eval_sf.py   --path precomputed/$modelname/  --dataset 2015

Install

The code is tested with python 3.8, pytorch 1.7.0, and CUDA 10.2. Install dependencies by

conda env create -f rigidmask.yml
conda activate rigidmask_v0
pip install kornia
python -m pip install detectron2 -f \
  https://dl.fbaipublicfiles.com/detectron2/wheels/cu102/torch1.7/index.html

Compile DCNv2 and ngransac.

cd models/networks/DCNv2/; python setup.py install; cd -
cd models/ngransac/; python setup.py install; cd -

Pretrained models

Download pre-trained models to ./weights (assuming gdown is installed),

mkdir weights
mkdir weights/rigidmask-sf
mkdir weights/rigidmask-kitti
gdown https://drive.google.com/uc?id=1H2khr5nI4BrcrYMBZVxXjRBQYBcgSOkh -O ./weights/rigidmask-sf/weights.pth
gdown https://drive.google.com/uc?id=1sbu6zVeiiK1Ra1vp_ioyy1GCv_Om_WqY -O ./weights/rigidmask-kitti/weights.pth
modelname training set flow model flow err. (K:Fl-err/EPE) motion-in-depth err. (K:1e4) seg. acc. (K:obj/K:bg/S:bg)
rigidmask-sf (mono) SF C+SF+V 10.9%/3.128px 120.4 90.71%/97.05%/86.72%
rigidmask-kitti (stereo) SF+KITTI C+SF+V->KITTI 4.1%/1.155px 49.7 95.58%/98.91%/-

** C: FlythingChairs, SF(SceneFlow including FlyingThings, Monkaa, and Driving, K: KITTI scene flow training set, V: VIPER, S: Sintel. Averaged over the 200 annotated KITTI pairs.

Inference

Run and visualize rigid segmentation of coral reef video, (pass --refine to turn on rigid motion refinement). Results will be saved at ./weights/$modelname/seq/ and a output-seg.gif file will be generated in the current folder.

modelname=rigidmask-sf
CUDA_VISIBLE_DEVICES=1 python submission.py --dataset seq-coral --datapath input/imgs/coral/   --outdir ./weights/$modelname/ --loadmodel ./weights/$modelname/weights.pth --testres 1
python eval/generate_visual.py --datapath weights/$modelname/seq-coral/ --imgpath input/imgs/coral

Run and visualize two-view depth estimation on kitti video, a output-depth.gif will be saved to the current folder.

modelname=rigidmask-sf
CUDA_VISIBLE_DEVICES=1 python submission.py --dataset seq-kitti --datapath input/imgs/kitti_2011_09_30_drive_0028_sync_11xx/   --outdir ./weights/$modelname/ --loadmodel ./weights/$modelname/weights.pth --testres 1.2 --refine
python eval/generate_visual.py --datapath weights/$modelname/seq-kitti/ --imgpath input/imgs/kitti_2011_09_30_drive_0028_sync_11xx
python eval/render_scene.py --inpath weights/rigidmask-sf/seq-kitti/pc0-0000001110.ply

Run and evaluate kitti-sceneflow (monocular setup, Tab. 1 and Tab. 2),

modelname=rigidmask-sf
CUDA_VISIBLE_DEVICES=1 python submission.py --dataset 2015 --datapath path-to-kitti-sceneflow-training   --outdir ./weights/$modelname/ --loadmodel ./weights/$modelname/weights.pth  --testres 1.2 --refine
python eval/eval_seg.py   --path weights/$modelname/  --dataset 2015
python eval/eval_sf.py   --path weights/$modelname/  --dataset 2015
modelname=rigidmask-sf
CUDA_VISIBLE_DEVICES=1 python submission.py --dataset sintel_mrflow_val --datapath path-to-sintel-training   --outdir ./weights/$modelname/ --loadmodel ./weights/$modelname/weights.pth  --testres 1.5 --refine
python eval/eval_seg.py   --path weights/$modelname/  --dataset sintel
python eval/eval_sf.py   --path weights/$modelname/  --dataset sintel

Run and evaluate kitti-sceneflow (stereo setup, Tab. 6),

modelname=rigidmask-kitti
CUDA_VISIBLE_DEVICES=1 python submission.py --dataset 2015 --datapath path-to-kitti-sceneflow-images   --outdir ./weights/$modelname/ --loadmodel ./weights/$modelname/weights.pth  --disp_path input/disp/kittisf-train-hsm-disp/ --fac 2 --maxdisp 512 --refine --sensor stereo
python eval/eval_seg.py   --path weights/$modelname/  --dataset 2015
python eval/eval_sf.py    --path weights/$modelname/  --dataset 2015

To generate results for kitti-sceneflow benchmark (stereo setup, Tab. 3),

modelname=rigidmask-kitti
mkdir ./benchmark_output
CUDA_VISIBLE_DEVICES=1 python submission.py --dataset 2015test --datapath path-to-kitti-sceneflow-images  --outdir ./weights/$modelname/ --loadmodel ./weights/$modelname/weights.pth  --disp_path input/disp/kittisf-test-ganet-disp/ --fac 2 --maxdisp 512 --refine --sensor stereo

Training (TODO)

Training on synthetic dataset

First download and unzip the scene flow dataset under the same folder. You'll need RGB images, camera data, object segmentation, disparity, disparity change, and optical flow. It takes 1~2 TB space. Then download the pre-trained optical flow and expansion network (trained on synthetic datasets)

gdown https://drive.google.com/uc?id=11F_dI6o37nzA9B5V7OT-UwAl66LWlu-4 -O ./weights/flowexp-sf.pth

To train the rigidmask-sf model, run

datapath=path-to-data-dir
CUDA_VISIBLE_DEVICES=0,1,2,3 python -m torch.distributed.launch --nproc_per_node=4 train.py --logname logname --database $datapath --savemodel ./weights --stage segsf --nproc 4 --loadmodel ./weights/flowexp-sf.pth

Training on synthetic dataset + KITTI

First download and place the KITTI-SF dataset under the same folder as the scene flow dataset. The pre-computed relative camera poses of KITTI-SF can be downloaded here, and placed underkitti_scene/training/.

Then download the pre-trained optical flow and expansion network (trained on synthetic datasets and fine-tuned on KITTI).

gdown https://drive.google.com/uc?id=1uWPvL71KXeFY0U4wFluJfYJdcFfwEH_G -O ./weights/flowexp-kitti.pth
      

To train the rigidmask-kitti model, run

datapath=path-to-data-dir
CUDA_VISIBLE_DEVICES=0,1,2,3 python -m torch.distributed.launch --nproc_per_node=4 train.py --logname logname --database $datapath --savemodel ./weights --stage segkitti --nproc 4 --loadmodel ./weights/flowexp-kitti.pth

Acknowledge (incomplete)

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