3DMV jointly combines RGB color and geometric information to perform 3D semantic segmentation of RGB-D scans. This work is based on our ECCV'18 paper, 3DMV: Joint 3D-Multi-View Prediction for 3D Semantic Scene Segmentation.
Training is implemented with PyTorch. This code was developed under PyTorch 0.2 and recently upgraded to PyTorch 0.4.
- See
python train.py --help
for all train options. Example train call:
python train.py --gpu 0 --train_data_list [path to list of train files] --data_path_2d [path to 2d image data] --class_weight_file [path to txt file of train histogram] --num_nearest_images 5 --model2d_path [path to pretrained 2d model]
- Trained models: models.zip
- See
python test.py --help
for all test options. Example test call:
python test.py --gpu 0 --scene_list test_scenes.txt --model_path models/scannetv2/scannet5_model.pth --data_path_2d [path to 2d image data] --data_path_3d [path to test scene data] --num_nearest_images 5 --model2d_orig_path models/scannetv2/scannet5_model2d.pth
This data has been precomputed from the ScanNet (v2) dataset.
- Train data for ScanNet v2: 3dmv_scannet_v2_train.zip (6.2G)
- 2D train images can be processed from the ScanNet dataset using the 2d data preparation script in prepare_data
- Expected file structure for 2D data:
scene0000_00/ |--color/ |--[framenum].jpg ⋮ |--depth/ |--[framenum].png (16-bit pngs) ⋮ |--pose/ |--[framenum].txt (4x4 rigid transform as txt file) ⋮ |--label/ (if applicable) |--[framenum].png (8-bit pngs) ⋮ scene0000_01/ ⋮
- Test scenes for ScanNet v2: 3dmv_scannet_v2_test_scenes.zip (110M)
If you find our work useful in your research, please consider citing:
@inproceedings{dai20183dmv,
author = {Dai, Angela and Nie{\ss}ner, Matthias},
booktitle = {Proceedings of the European Conference on Computer Vision ({ECCV})},
title = {3DMV: Joint 3D-Multi-View Prediction for 3D Semantic Scene Segmentation},
year = {2018}
}
If you have any questions, please email Angela Dai at [email protected].