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This repository provides various Python methods for performing basic facial detection and facial features recognition.

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Overview Facial Detection

Facial detection or recognition technology is used throughout the image analysis fields. Face detection is the most essential step in all facical recognition algorithms. Face detection is a core component in objective detection and is used in many areas including biometrics, border control, law enforcement and physical security. These facical algorithms are most often used in real-time surveillance applications that can not only detect faces, but also track these faces as they move in a crowd.

Identifying faces in a crowd can be highly problematic, but these problems extend even to detecting faces in still images. There are a lot of human characteristics and variabilities that cause problems for facial detection algorithms. These variables include facial expressions, skin color, the presence of eye wear, makeup or facial hair, the position and orientation of any potential faces in an image and the lighting conditions in which the image was taken.

Technology vendors, such as Apple has had detection issues with the facial recognition system known as Face ID on several models of their iPhones. Even Facebook has had issues with identify faces in photos that users post to the company's international social media platform. And let's not get started on the subtle differences between a blueberry muffin and a chihuahua to a facial detection algorithm.

Most humans can look at two photos and quickly determine that a delicious looking blueberry muffin is a lovable dog called a chihuahua. Computers can be programmed to perform this tasks and many more in the realm of facial detection. So let's explore how computers can be used in facial detection.

Primary objective of this repository

This repository is going to examine various methods and algorithms that can be used to identify specific facial characteristics, such as the eye and mouth areas of a human face. The 3 images used in these tests are of the well-known female actress Natalie Portman.

Another objective of this repository is to determine the capabilities and limitations of the Python libraries used to perform these facial characteristics tests.

Facial Detection and Features Identification

Open Computer Vision Library (OpenCV):

This experiment used the CV2 modules OpenCV-Python and OpenCV-Contrib-Python.. These modules provide functions designed for real-time computer vision, image processing and machine learning.

OpenCV is being used today for a wide range of applications which include:

  • Automated inspection and surveillance
  • Video/image search and retrieval
  • Medical image analysis
  • Criminal investigation
  • Vehicle tag recognition
  • Street view image stitching
  • Robot and driver-less car navigation and control
  • Signature pattern detection on documents

This experiment will focus on the basics of face detection using the Haar feature-based Cascade classifiers. The Haar Cascade classifiers used in this experiment were:

  1. haarcascade_frontalface_default.xml
  2. haarcascade_eye.xml
  3. haarcascade_mcs_nose.xml
  4. haarcascade_smile.xml

Additional Haar Cascade classifiers are available from these locations:

  1. https://github.com/opencv/opencv/tree/master/data/haarcascades
  2. http://alereimondo.no-ip.org/OpenCV/34.version?id=60

It's worth noting that Python occasionally has issues locating the Haar Cascade classifiers on your system. To solve this you can use the Python module os to find the absolute paths for the classifiers installed.

# This code was extracted from the script facial_features_haar_cascade_classifiers.py

cv2_base_dir = os.path.dirname(os.path.abspath(cv2.__file__))
haar_frontal_face_model = os.path.join(cv2_base_dir, 'data/haarcascade_frontalface_default.xml')
haar_eye_model = os.path.join(cv2_base_dir, 'data/haarcascade_eye.xml')
haar_mouth_model = os.path.join(cv2_base_dir, 'data/haarcascade_smile.xml')
haar_nose_model = os.path.join(cv2_base_dir, 'data/haarcascade_mcs_nose.xml')

Haar Cascade Classifiers - Facial Detection

One of the most basic Haar Cascade classifiers is the one used to detect the facial area of a human face looking directly at the camera. This base-level algorithm comes pretrained, so it is able to identify images that have human face characteristics and their associated parameters and ones that have no human face characteristics, such as an image of a cat.

# This code was extracted from mutiple functions in the script facial_features_haar_cascade_classifiers.py

image_name = 'natalie_portman.jpeg'
photograph = cv2.imread(image_name)
grayscale_image = cv2.cvtColor(photograph, cv2.COLOR_BGR2GRAY)
faces = face_cascade.detectMultiScale(grayscale_image, scaleFactor=1.3, minNeighbors=5)
for (x_coordinate, y_coordinate, width, height) in faces:
    cv2.rectangle(photograph, (x_coordinate, y_coordinate),
                  (x_coordinate + width, y_coordinate + height), (255, 0, 255), 2)

The image of Natalie Portman below has a bounding box drawn around the entire facial area identified by the Haar Cascade classifier haarcascade_frontalface_default.xml.

Haar Cascade Classifiers - Eye Detection

The eye area is another human facial characteristic that can be identified using the Haar Cascade classifier haarcascade_eye.xml, which is used in collaboration with the Haar Cascade classifier for identifing frontal faces.

# This code was extracted from mutiple functions in the script facial_features_haar_cascade_classifiers.py

image_name = 'natalie_portman.jpeg'
photograph = cv2.imread(image_name)
grayscale_image = cv2.cvtColor(photograph, cv2.COLOR_BGR2GRAY)
faces = face_cascade.detectMultiScale(grayscale_image, scaleFactor=1.3, minNeighbors=5)

for (x_coordinate, y_coordinate, width, height) in faces:
    roi_gray = grayscale_image[y_coordinate:y_coordinate + height, x_coordinate:x_coordinate + width]
    roi_color = photograph[y_coordinate:y_coordinate + height, x_coordinate:x_coordinate + width]
    eyes = eye_cascade.detectMultiScale(roi_gray, scaleFactor=1.3, minNeighbors=4, flags=cv2.CASCADE_SCALE_IMAGE)

    for (eye_x_coordinate, eye_y_coordinate, eye_width, eye_height) in eyes:
        cv2.rectangle(roi_color, (eye_x_coordinate, eye_y_coordinate),
                  (eye_x_coordinate + eye_width, eye_y_coordinate + eye_height), (128, 0, 255), 2)

The image of Natalie Portman below has a bounding box drawn around the eye area identified by the Haar Cascade classifier haarcascade_eye.xml.

Haar Cascade Classifiers - Nose Detection

The nose area classifier haarcascade_mcs_nose.xml also works in concert with the Haar Cascade classifier used to identify frontal faces.

# This code was extracted from mutiple functions in the script facial_features_haar_cascade_classifiers.py

image_name = 'natalie_portman.jpeg'
photograph = cv2.imread(image_name)
grayscale_image = cv2.cvtColor(photograph, cv2.COLOR_BGR2GRAY)
faces = face_cascade.detectMultiScale(grayscale_image, scaleFactor=1.3, minNeighbors=5)

for (x_coordinate, y_coordinate, width, height) in faces:
    roi_gray = grayscale_image[y_coordinate:y_coordinate + height, x_coordinate:x_coordinate + width]
    roi_color = photograph[y_coordinate:y_coordinate + height, x_coordinate:x_coordinate + width]
    nose = nose_cascade.detectMultiScale(roi_gray, scaleFactor=1.3, minNeighbors=8, flags=cv2.CASCADE_SCALE_IMAGE)

    for (nose_x_coordinate, nose_y_coordinate, nose_width, nose_height) in nose:
        cv2.rectangle(roi_color, (nose_x_coordinate, nose_y_coordinate),
                      (nose_x_coordinate + nose_width, nose_y_coordinate + nose_height), (255, 0, 0), 2)

The image of Natalie Portman below has a bounding box drawn around the nose area identified by the Haar Cascade classifier haarcascade_mcs_nose.xml.

Haar Cascade Classifiers - Mouth Detection

This classifier uses the Haar Cascade haarcascade_smile.xml in conjunction with the Haar Cascade classifier used to identify frontal faces.

# This code was extracted from mutiple functions in the script facial_features_haar_cascade_classifiers.py

image_name = 'natalie_portman.jpeg'
photograph = cv2.imread(image_name)
grayscale_image = cv2.cvtColor(photograph, cv2.COLOR_BGR2GRAY)
faces = face_cascade.detectMultiScale(grayscale_image, scaleFactor=1.3, minNeighbors=5)

for (x_coordinate, y_coordinate, width, height) in faces:
    roi_gray = grayscale_image[y_coordinate:y_coordinate + height, x_coordinate:x_coordinate + width]
    roi_color = photograph[y_coordinate:y_coordinate + height, x_coordinate:x_coordinate + width]
    mouth = mouth_cascade.detectMultiScale(roi_gray, scaleFactor=1.3, minNeighbors=4, flags=cv2.CASCADE_SCALE_IMAGE)

    for (mouth_x_coordinate, mouth_y_coordinate, mouth_width, mouth_height) in mouth:
        cv2.rectangle(roi_color, (mouth_x_coordinate, mouth_y_coordinate),
                      (mouth_x_coordinate + mouth_width, mouth_y_coordinate + mouth_height), (0, 255, 128), 2)

The image of Natalie Portman below has a bounding box drawn around the mouth area identified by the Haar Cascade classifier haarcascade_smile.xml.

Haar Cascade Classifiers - All Facial Characteristics Detection

The image of Natalie Portman below has bounding boxes drawn around the all the facial characteristics previously identified by all the Haar Cascade classifiers listed above.

Haar Cascade Classifiers Detection Issues:

The OpenCV Haar Cascade classifiers have some detection issues. For example, if a person in an image has a hair style that obscures segments of their face from view then the Haar Cascade Frontal Face classifier might have problems detecting the person's face. Other factors, such as excessive facial hair, sun glasses or heavy makeup can cause both rudimentary and some advanced facical detection algorithms to have errors in detecting various facial features. Some of these Haar Cascade classifiers algorithms were orginally trained using photographics of people with lighter skin tones, so some detection issues can occur with certain skin colors.

For instance the image below is of Natalie Portman from the movie Black Swan. As you can see she is wearing heavy makeup for her role as Nina.

The Haar Cascade classifiers Frontal Face and Nose were able to properly identify these characteristics on this photograph. The Haar Cascade classifier for Eyes, was not able to identify that facial feature on this image, likey because of the heavy eye makeup being worned by Ms. Portman. The mouth classifier also had difficulties accurately locating the mouth area in this photograph as shown in the image below.

The Black Swan transformation of Natalie Portman was an extreme example to showcase the OpenCV Haar Cascade classifiers limitations, so here is another example of the actress wearing dark sunglasses.

The Haar Cascade classifier Frontal Face was the only algorithm that was able to properly identify that core facial characteristic on this photograph. Both the Eyes and Nose classifiers failed to detect those facial characteristics in the image. Like in the previous Black Swan photo the mouth classifier also had difficulties accurately locating the mouth area in the photograph of Natalie Portman wearing sunglasses. The results of the mouth classifier are shown below.

Both the examples above were very basic levels of facial camouflage, but both were able to foil certain aspects of the Haar Cascade classifiers.. The website CV Dazzle has more complex camouflage photographs that can be used in testing the capabilities and limitations of facial detection algorithms.

Notes:

The code within this repository is not production ready. It was strictly designed for experimental testing purposes only.

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