Skip to main content

Pretrained Pytorch face detection and recognition models

Project description

Face Recognition Using Pytorch

Downloads

Code Coverage

Python 3.7 3.6 3.5
Status Build Status Build Status Build Status

This is a repository for Inception Resnet (V1) models in pytorch, pretrained on VGGFace2 and CASIA-Webface.

Pytorch model weights were initialized using parameters ported from David Sandberg's tensorflow facenet repo.

Also included in this repo is an efficient pytorch implementation of MTCNN for face detection prior to inference. These models are also pretrained.

Quick start

  1. Either install using pip:
    pip install facenet-pytorch
    
    or clone this repo, removing the '-' to allow python imports:
    git clone https://github.com/timesler/facenet-pytorch.git facenet_pytorch
    
    or use a docker container (see timesler/jupyter-dl-gpu):
    docker run -it --rm timesler/jupyter-dl-gpu pip install facenet-pytorch && ipython
    
  2. In python, import the module:
    from facenet_pytorch import MTCNN, InceptionResnetV1
    
  3. If required, create a face detection pipeline using MTCNN:
    mtcnn = MTCNN(image_size=<image_size>, margin=<margin>)
    
  4. Create an inception resnet (in eval mode):
    resnet = InceptionResnetV1(pretrained='vggface2').eval()
    
  5. Process an image:
    from PIL import Image
    
    img = Image.open(<image path>)
    
    # Get cropped and prewhitened image tensor
    img_cropped = mtcnn(img, save_path=<optional save path>)
    
    # Calculate embedding (unsqueeze to add batch dimension)
    img_embedding = resnet(img_cropped.unsqueeze(0))
    
    # Or, if using for VGGFace2 classification
    resnet.classify = True
    img_probs = resnet(img_cropped.unsqueeze(0))
    

See help(MTCNN) and help(InceptionResnetV1) for usage and implementation details.

Pretrained models

See: models/inception_resnet_v1.py

The following models have been ported to pytorch (with links to download pytorch state_dict's):

Model name LFW accuracy (as listed here) Training dataset
20180408-102900 (111MB) 0.9905 CASIA-Webface
20180402-114759 (107MB) 0.9965 VGGFace2

There is no need to manually download the pretrained state_dict's; they are downloaded automatically on model instantiation and cached for future use in the torch cache. To use an Inception Resnet (V1) model for facial recognition/identification in pytorch, use:

from facenet_pytorch import InceptionResnetV1

# For a model pretrained on VGGFace2
model = InceptionResnetV1(pretrained='vggface2').eval()

# For a model pretrained on CASIA-Webface
model = InceptionResnetV1(pretrained='casia-webface').eval()

# For an untrained model with 100 classes
model = InceptionResnetV1(num_classes=100).eval()

# For an untrained 1001-class classifier
model = InceptionResnetV1(classify=True, num_classes=1001).eval()

Both pretrained models were trained on 160x160 px images, so will perform best if applied to images resized to this shape. For best results, images should also be cropped to the face using MTCNN (see below).

By default, the above models will return 512-dimensional embeddings of images. To enable classification instead, either pass classify=True to the model constructor, or you can set the object attribute afterwards with model.classify = True. For VGGFace2, the pretrained model will output logit vectors of length 8631, and for CASIA-Webface logit vectors of length 10575.

Example notebooks

Complete detection and recognition pipeline

Face recognition can be easily applied to raw images by first detecting faces using MTCNN before calculating embedding or probabilities using an Inception Resnet model. The example code at examples/infer.ipynb provides a complete example pipeline utilizing datasets, dataloaders, and optional GPU processing.

Face tracking in video streams

MTCNN can be used to build a face tracking system (using the MTCNN.detect() method). A full face tracking example can be found at examples/face_tracking.ipynb.

Finetuning pretrained models with new data

In most situations, the best way to implement face recognition is to use the pretrained models directly, with either a clustering algorithm or a simple distance metrics to determine the identity of a face. However, if finetuning is required (i.e., if you want to select identity based on the model's output logits), an example can be found at examples/finetune.ipynb.

Running with docker

The package and any of the example notebooks can be run with docker (or nvidia-docker) using:

docker run --rm -p 8888:8888
    -v ./facenet-pytorch:/home/jovyan timesler/jupyter-dl-gpu \
    -v <path to data>:/home/jovyan/data
    pip install facenet-pytorch && jupyter lab 

Navigate to the examples/ directory and run any of the ipython notebooks.

See timesler/jupyter-dl-gpu for docker container details.

Use this repo in your own git project

To use this code in your own git repo, I recommend first adding this repo as a submodule. Note that the dash ('-') in the repo name should be removed when cloning as a submodule as it will break python when importing:

git submodule add https://github.com/timesler/facenet-pytorch.git facenet_pytorch

Alternatively, the code can be installed as a package using pip:

pip install facenet-pytorch

Conversion of parameters from Tensorflow to Pytorch

See: models/utils/tensorflow2pytorch.py

Note that this functionality is not needed to use the models in this repo, which depend only on the saved pytorch state_dict's.

Following instantiation of the pytorch model, each layer's weights were loaded from equivalent layers in the pretrained tensorflow models from davidsandberg/facenet.

The equivalence of the outputs from the original tensorflow models and the pytorch-ported models have been tested and are identical:


>>> compare_model_outputs(mdl, sess, torch.randn(5, 160, 160, 3).detach())

Passing test data through TF model

tensor([[-0.0142,  0.0615,  0.0057,  ...,  0.0497,  0.0375, -0.0838],
        [-0.0139,  0.0611,  0.0054,  ...,  0.0472,  0.0343, -0.0850],
        [-0.0238,  0.0619,  0.0124,  ...,  0.0598,  0.0334, -0.0852],
        [-0.0089,  0.0548,  0.0032,  ...,  0.0506,  0.0337, -0.0881],
        [-0.0173,  0.0630, -0.0042,  ...,  0.0487,  0.0295, -0.0791]])

Passing test data through PT model

tensor([[-0.0142,  0.0615,  0.0057,  ...,  0.0497,  0.0375, -0.0838],
        [-0.0139,  0.0611,  0.0054,  ...,  0.0472,  0.0343, -0.0850],
        [-0.0238,  0.0619,  0.0124,  ...,  0.0598,  0.0334, -0.0852],
        [-0.0089,  0.0548,  0.0032,  ...,  0.0506,  0.0337, -0.0881],
        [-0.0173,  0.0630, -0.0042,  ...,  0.0487,  0.0295, -0.0791]],
       grad_fn=<DivBackward0>)

Distance 1.2874517096861382e-06

In order to re-run the conversion of tensorflow parameters into the pytorch model, ensure you clone this repo with submodules, as the davidsandberg/facenet repo is included as a submodule and parts of it are required for the conversion.

References

  1. David Sandberg's facenet repo: https://github.com/davidsandberg/facenet

  2. F. Schroff, D. Kalenichenko, J. Philbin. FaceNet: A Unified Embedding for Face Recognition and Clustering, arXiv:1503.03832, 2015. PDF

  3. Q. Cao, L. Shen, W. Xie, O. M. Parkhi, A. Zisserman. VGGFace2: A dataset for recognising face across pose and age, International Conference on Automatic Face and Gesture Recognition, 2018. PDF

  4. D. Yi, Z. Lei, S. Liao and S. Z. Li. CASIAWebface: Learning Face Representation from Scratch, arXiv:1411.7923, 2014. PDF

  5. K. Zhang, Z. Zhang, Z. Li and Y. Qiao. Joint Face Detection and Alignment Using Multitask Cascaded Convolutional Networks, IEEE Signal Processing Letters, 2016. PDF

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

facenet-pytorch-1.0.2.tar.gz (1.9 MB view details)

Uploaded Source

Built Distribution

facenet_pytorch-1.0.2-py3-none-any.whl (1.9 MB view details)

Uploaded Python 3

File details

Details for the file facenet-pytorch-1.0.2.tar.gz.

File metadata

  • Download URL: facenet-pytorch-1.0.2.tar.gz
  • Upload date:
  • Size: 1.9 MB
  • Tags: Source
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/1.13.0 pkginfo/1.5.0.1 requests/2.21.0 setuptools/40.8.0 requests-toolbelt/0.9.1 tqdm/4.31.1 CPython/3.7.3

File hashes

Hashes for facenet-pytorch-1.0.2.tar.gz
Algorithm Hash digest
SHA256 8b380c57d16c174d2936b1768b3f4ebc7f448522e06295b0ade259b1b32c5b18
MD5 4a3cee61f456279107cbd2764e5e0701
BLAKE2b-256 8fd7f39b13109165e2f8e042b40a80bd41f82b134acebd0e2ca23b9e7b0d3503

See more details on using hashes here.

Provenance

File details

Details for the file facenet_pytorch-1.0.2-py3-none-any.whl.

File metadata

  • Download URL: facenet_pytorch-1.0.2-py3-none-any.whl
  • Upload date:
  • Size: 1.9 MB
  • Tags: Python 3
  • Uploaded using Trusted Publishing? No
  • Uploaded via: twine/1.13.0 pkginfo/1.5.0.1 requests/2.21.0 setuptools/40.8.0 requests-toolbelt/0.9.1 tqdm/4.31.1 CPython/3.7.3

File hashes

Hashes for facenet_pytorch-1.0.2-py3-none-any.whl
Algorithm Hash digest
SHA256 66b16a2febdc57b41200bb8f8f7565a037cc0096d53b405a72752a6501cf7d96
MD5 49175e378308b261db2e89ce365eae97
BLAKE2b-256 b76f488d4ffa2fd8cc2ae5cf860e2349464926082b4f39b614a1cf06a387d022

See more details on using hashes here.

Provenance

Supported by

AWS AWS Cloud computing and Security Sponsor Datadog Datadog Monitoring Fastly Fastly CDN Google Google Download Analytics Microsoft Microsoft PSF Sponsor Pingdom Pingdom Monitoring Sentry Sentry Error logging StatusPage StatusPage Status page