Face detection, alignment, and averaging using OpenCV and dlib
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Facer draws heavily on this tutorial from Satya Mallick. I had to update the code pretty heavily to get the project to work, so I thought I'd share my modifications.
The image below is an example of Facer's output for one of my posts on r/dataisbeautiful
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You have my 100% money-back guarantee that the most difficult part of using this package is installing its requirements. Once you've got OpenCV installed, the rest will should be smooth sailing. I've had the best luck with the OpenCV using the opencv-python
package from PyPI.
Install facer
using pip
:
pip install -U average-facer
The face landmark detection relies on a pre-trained model that must be downloaded separately from the dlib
package itself.
wget http://dlib.net/files/shape_predictor_68_face_landmarks.dat.bz2
Unzip the compressed file after it finishes downloading and move it into the ./Facer/model
directory.
from facer import facer
import matplotlib.pyplot as plt
# Load face images
path_to_images = "./face_images" # Put your images here
images = facer.load_images(path_to_images)
# Detect landmarks for each face
landmarks, faces = facer.detect_face_landmarks(images)
# Use the detected landmarks to create an average face
average_face = facer.create_average_face(faces, landmarks, save_image=True)
# View the composite image
plt.imshow(average_face)
plt.show()
Facer also supports creating animated GIFs of the averaging process:
from facer import facer
path_to_images = "./face_images"
gif, average_face = facer.create_animated_gif(path_to_images)