GitXplorerGitXplorer
d

pytorch-sift

public
170 stars
16 forks
0 issues

Commits

List of commits on branch master.
Verified
00e726f8d777fdd87064627c6cc770966d12b5eb

Update README.md

dducha-aiki committed 5 years ago
Unverified
9c5a387f2f590d01a9aa6970525c7798a52b37d2

added numpy-sift results

dducha-aiki committed 6 years ago
Unverified
17b26c2e412e1d017beb5546ee4395285b80b83b

added numpy results

dducha-aiki committed 6 years ago
Verified
f61cc59a039a06b7c385d6cab56bab547cc88894

Update README.md

dducha-aiki committed 6 years ago
Verified
21e5827f5f25677b5cacaffcd6760693d2d132bc

Update README.md

dducha-aiki committed 6 years ago
Unverified
bd062d2abbf7b073fa76ce51f309a2bd0c608ce2

added results on HPatches and different models

dducha-aiki committed 6 years ago

README

The README file for this repository.

This is an differentiable pytorch implementation of SIFT patch descriptor. It is very slow for describing one patch, but quite fast for batch. It can be used for descriptop-based learning shape of affine feature.

UPD 08/2019 : pytorch-sift is added to kornia and available by kornia.features.SIFTDescriptor

There are different implementations of the SIFT on the web. I tried to match Michal Perdoch implementation, which gives high quality features for image retrieval CVPR2009. However, on planar datasets, it is inferior to vlfeat implementation. The main difference is gaussian weighting window parameters, so I have made a vlfeat-like version too. MP version weights patch center much more (see image below, left) and additionally crops everything outside the circular region. Right is vlfeat version

Michal Perdoch kernel vlfeat kernel

descriptor_mp_mode = SIFTNet(patch_size = 65,
                        sigma_type= 'hesamp',
                        masktype='CircularGauss')

descriptor_vlfeat_mode = SIFTNet(patch_size = 65,
                        sigma_type= 'vlfeat',
                        masktype='Gauss')

Results:

hpatches mathing results

OPENCV-SIFT - mAP 
   Easy     Hard      Tough     mean
-------  -------  ---------  -------
0.47788  0.20997  0.0967711  0.26154

VLFeat-SIFT - mAP 
    Easy      Hard      Tough      mean
--------  --------  ---------  --------
0.466584  0.203966  0.0935743  0.254708

PYTORCH-SIFT-VLFEAT-65 - mAP 
    Easy      Hard      Tough      mean
--------  --------  ---------  --------
0.472563  0.202458  0.0910371  0.255353

NUMPY-SIFT-VLFEAT-65 - mAP 
    Easy      Hard      Tough      mean
--------  --------  ---------  --------
0.449431  0.197918  0.0905395  0.245963

PYTORCH-SIFT-MP-65 - mAP 
    Easy      Hard      Tough      mean
--------  --------  ---------  --------
0.430887  0.184834  0.0832707  0.232997

NUMPY-SIFT-MP-65 - mAP 
    Easy     Hard      Tough      mean
--------  -------  ---------  --------
0.417296  0.18114  0.0820582  0.226832

Speed:

  • 0.00246 s per 65x65 patch - numpy SIFT
  • 0.00028 s per 65x65 patch - C++ SIFT
  • 0.00074 s per 65x65 patch - CPU, 256 patches per batch
  • 0.00038 s per 65x65 patch - GPU (GM940, mobile), 256 patches per batch
  • 0.00038 s per 65x65 patch - GPU (GM940, mobile), 256 patches per batch

If you use this code for academic purposes, please cite the following paper:

@InProceedings{AffNet2018,
    title = {Repeatability Is Not Enough: Learning Affine Regions via Discriminability},
    author = {Dmytro Mishkin, Filip Radenovic, Jiri Matas},
    booktitle = {Proceedings of ECCV},
    year = 2018,
    month = sep
}