Extract face landmarks using Dlib and train a multi-class SVM classifier to recognize facial expressions (emotions).
The task is to categorize people images based on the emotion shown by the facial expression. To train our model, we want to use Fer2013 datset that contains 30,000 images of expressions grouped in seven categories: Angry, Disgust, Fear, Happy, Sad, Surprise and Neutral. The problem is that Fer2013 images are not aligned and it's difficult to classify facial expressions from it. The state-of-art accuracy achieved in this dataset, as far as I know, is 75.2% (refer to: Christopher Pramerdorfer, Martin Kampel. "Facial Expression Recognition using Convolutional Neural Networks: State of the Art". arXiv:1612.02903v1, 2016), a Convolutional Neural Network was used during several hours on GPU to obtain these results. Lets try a much simpler (and faster) approach by extracting Face Landmarks + HOG features and feed them to a multi-class SVM classifier. The goal is to get a quick baseline for educational purpose, if you want to achieve better results please refer to Pramerdorfer's paper.
| Features | 7 emotions | 5 emotions |
|---|---|---|
| HoG features | 29.0% | 34.4% |
| Face landmarks | 39.2% | 46.9% |
| Face landmarks + HOG | 48.2% | 55.0% |
| Face landmarks + HOG on slinding window | 50.5% | 59.4% |
As expected, the Deep Learning approaches achieve better results (compare results with Facial Expressions Recognition using CNN)
The SVM training time was about ~400 seconds on an i7 2.8Ghz CPU, for the last experiment (sliding window) the training time reached 2060 seconds.
For the experiments with 5 emotions, the following expressions was used: Angry, Happy, Sad, Surprise, Neutral.
The code was tested for python 2.7 and 3.6.
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Download Fer2013 dataset and the Face Landmarks model
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Unzip the downloaded files
And put the files
fer2013.csvandshape_predictor_68_face_landmarks.datin the root folder of this package. -
Install dependencies
pip install numpy pip install argparse pip install sklearn pip install scikit-image pip install pandas pip install hyperopt pip install dlib -
Convert the dataset to extract Face Landmarks and HOG Features
python convert_fer2013_to_images_and_landmarks.pyYou can also use these optional arguments according to your needs:
-j,--jpg(yes|no): save images as .jpg files (default=no)-l,--landmarks(yes|no): extract Dlib Face landmarks (default=yes)-ho,--hog(yes|no): extract HOG features (default=yes)-hw,--hog_windows(yes|no): extract HOG features using a sliding window (default=yes)-o,--onehot(yes|no): one hot encoding (default=no)-e,--expressions(list of numbers): choose the faciale expression you want to use: 0=Angry, 1=Disgust, 2=Fear, 3=Happy, 4=Sad, 5=Surprise, 6=Neutral (default=0,1,2,3,4,5,6)Example
python convert_fer2013_to_images_and_landmarks.py --landmarks=yes --hog=no --how_windows=no --jpg=no --onehot=no --expressions=1,3,4 -
Train the model
python train.py --train=yes -
Evaluate the model
If you have already a pretrained model
python train.py --evaluate=yes -
Train and evaluate [instead of step 5 and 6]
python train.py --train=yes --evaluate=yes -
Customize the training parameters:
Feel free to change the values of the parameters in the
parameters.pyfile according to your needs. -
Find the best hyperparameters (using hyperopt):
python optimize_parameters.py --max_evals=15The argument
max_evalsspecifies the number of combinaisions hyperopt will try. After finding the best hyperparameters, you should change the corresponding values inparameters.pyand retrain the model. N.B: the accuracies displayed during hyperoptimization are for validation_set only (not test_set)
Some ideas for interessted contributors:
- Add other features extraction techniques?
- Predict expression from a .jpg|.png file?