If you use our models, please cite the following paper:
@article{wulight,
title={A Light CNN for Deep Face Representation with Noisy Labels},
author={Wu, Xiang and He, Ran and Sun, Zhenan and Tan, Tieniu}
journal={arXiv preprint arXiv:1511.02683},
year={2015}
}
@article{wu2015lightened,
title={A Lightened CNN for Deep Face Representation},
author={Wu, Xiang and He, Ran and Sun, Zhenan},
journal={arXiv preprint arXiv:1511.02683},
year={2015}
}
@article{wu2015learning,
title={Learning Robust Deep Face Representation},
author={Wu, Xiang},
journal={arXiv preprint arXiv:1507.04844},
year={2015}
}
- Dec 16, 2016
- The MS-Celeb-1M clean list is uploaded: Baidu Yun, Google Drive.
- Nov 08, 2016
- The prototxt and model C based on caffe-rc3 is updated. The accuracy on LFW achieves 98.80% and the TPR@FAR=0 obtains 94.97%.
- The performance of set 1 on MegaFace achieves 65.532% for rank-1 accuracy and 75.854% for TPR@FAR=10^-6.
- Nov 26, 2015
- The prototxt and model B is updated and the accuracy on LFW achieves 98.13% for a single net without training on LFW.
- Aug 13, 2015
- Evaluation of LFW for identification protocols is published.
- Jun 11, 2015
- The prototxt and model A is released. The accuracy on LFW achieves 97.77%.
The Deep Face Representation Experiment is based on Convolution Neural Network to learn a robust feature for face verification task. The popular deep learning framework caffe is used for training on face datasets such as CASIA-WebFace, VGG-Face and MS-Celeb-1M. And the feature extraction is realized by python code caffe_ftr.py.
- Code
- data pre-processing and evaluation code
- Model
- caffemodel.
- The model A and B is trained on CASIA-WebFace by caffe-rc.
- The model C is trained on MS-Celeb-1M by caffe-rc3.
- caffemodel.
- Proto
- Lightened CNN implementations by caffe
- Results
- LFW features
Data Pre-processing
- Download face dataset such as CASIA-WebFace, VGG-Face and MS-Celeb-1M.
- All face images are converted to gray-scale images and normalized to 144x144 according to landmarks.
- According to the 5 facial points, we not only rotate two eye points horizontally but also set the distance between the midpoint of eyes and the midpoint of mouth(ec_mc_y), and the y axis of midpoint of eyes(ec_y) .
| Dataset | size | ec_mc_y | ec_y |
|---|---|---|---|
| Training set | 144x144 | 48 | 48 |
| Testing set | 128x128 | 48 | 40 |
Training
- The model is trained by open source deep learning framework caffe.
- The network configuration is showed in "proto" file and the trained model is showed in "model" file.
Evaluation
- The model is evaluated on LFW which is a popular data set for face verification task.
- The extracted features and lfw testing pairs are located in "results" file.
- To evaluate the model, the matlab code or other ROC evaluation code can be used.
- The model is also evaluated on MegaFace. The dataset and evaluation code can be downloaded from http://megaface.cs.washington.edu/
Results
The single convolution net testing is evaluated on unsupervised setting only computing cosine similarity for lfw pairs.
| Model | 100% - EER | TPR@FAR=1% | TPR@FAR=0.1% | TPR@FAR=0 | Rank-1 | DIR@FAR=1% |
|---|---|---|---|---|---|---|
| A | 97.77% | 94.80% | 84.37% | 43.17% | 84.79% | 63.09% |
| B | 98.13% | 96.73% | 87.13% | 64.33% | 89.21% | 69.46% |
| C | 98.80% | 98.60% | 96.77% | 94.97% | 93.80% | 84.40% |
The details are published as a technical report on arXiv.
The released models are only allowed for non-commercial use.