/PlaneMatch

[ECCV'18 Oral] PlaneMatch: Patch Coplanarity Prediction for Robust RGB-D Reconstruction

Primary LanguagePython

PlaneMatch

This is the code repository for "PlaneMatch: Patch Coplanarity Prediction for Robust RGB-D Reconstruction" .

European Conference on Computer Vision 2018 (Oral presentation)

Created by Yifei Shi, Kai Xu, Matthias Niessner, Szymon Rusinkiewicz and Thomas Funkhouser

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Data & pretrained network download

You can download the data here from the TUM cluster.

Usage - Coplanarity Network

Dependancy

The code depends on Pytorch. Both Python 2.x and 3.x should work.

Training

To train a model from scratch, run:

python train.py --train_root_dir TRAINING_TRIPLETS_DIR

Arguments:

'--epochs' (number of epochs; default=100)
'--batch_size' (batch size; default=16)
'--num_workers' (number of workers; default=8)
'--save_snapshot' (save snapshots of trained model)
'--save_snapshot_every' (save training log for every X frames; default=100)
'--lr' (initial learning rate; default=.001)
'--focal_loss_lambda' (the lambda in the focal loss; default=3)
'--gpu' (device id of GPU to run cuda; default=0)
'--train_csv_path' (the path of triplet_train.csv)
'--train_root_dir' (the folder path of training_triplets)
'--save_path' (trained model path, default='./models')

Testing

To extract feature for COP, run:

python test.py --test_root_dir COP_DIR

For example, if you want to extract feature for the positive data in COP-D1, use command:

python test.py --test_root_dir COP/COP-D1_pos

Arguments:

'--test_csv_path' (the path of triplet_test.csv)
'--test_root_dir' (the folder path of testing data)
'--feature_path' (feature extraction output path, default='./feature_extraction')

Citation

If you find PlaneMatch useful in your research, please cite:

@inproceedings{shi2018planematch,
 author = {Yifei Shi and Kai Xu and Matthias Nie{\ss}ner and Szymon Rusinkiewicz and Thomas Funkhouser},
 booktitle = {Proceedings of the European Conference on Computer Vision ({ECCV})},
 title = {PlaneMatch: Patch Coplanarity Prediction for Robust RGB-D Reconstruction},
 year = {2018}
}