The main folder "ufpa-face-detection" has code starting with ufd_ and consists of UFPA's version of Viola&Jones's face detector.
Other folders:
- HaarCascades
Default face detector already trained with OpenCV and saved as XML file. This classifier uses decision stumps as weak learners and does not have tilted (rotated) features
- Images
Some test images
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ViolaJones_version0b
Original Dirk-Jan Kroon's code - also found at http://www.mathworks.com/matlabcentral/fileexchange/29437-viola-jones-object-detection
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akSimpleImageDetector
Simple (in fact stupid) detector to be used as baseline for UFPA's face detection project
- opencv/sources/apps
Some auxiliary files to be used as example for inserting user code and debugging with OpenCV.
Face detection for Octave / Matlab based on Viola & Jones' algorithm [1].
This code runs both on Octave and Matlab. Some previous work: OpenCV is the base implementation, written in C++ [3]. Mathworks has its own implementation for Matlab [2]. In [8] there is another implementation for Matlab, which uses the XML generated by OpenCV (representing the cascade detector trained with OpenCV).
Convention: all files (scripts and functions) start with the prefix ufd_ (UFPA face detection).
The face detector should have training and a test stages. The main scripts for training and testing are: ufd_train and ufd_test, respectively. Currently, only ufd_test is implemented.
The default detector assumes a frontal face and was created by Rainer Lienhart. It is stump-based (the weak classifiers are decision stumps) with a base resolution of 20x20 pixels, trained with Gentle Adaboost. See Zhu et al, Real-time face detection using Gentle AdaBoost algorithm and nesting cascade structure, 2012 (http://ieeexplore.ieee.org/document/6473448/)
Development strategy:
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We will use the training stage of OpenCV and import the classifier in [4] (more than 30k lines). For that, we used code that imports the XML file into Octave / Matlab. Note that Mathworks has support to OpenCV [5] but we will not use it for the sake of compatibility with Octave. This strategy will force us to use the same data structures as OpenCV but will allow to debug our code using OpenCV as a reference.
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We first concentrated on the test stage (training is not implemented yet), with the following guidelines: 1) use a webcam video capture software to obtain a screenshot as an image file, 2) read the image from Octave / Matlab, convert it to gray scale and show it, 3) calculate the Integral Image, 4) for all required resolutions, calculate the needed parameters and invoke the classifier, 5) draw the rectangles according to the classifier's decisions.
References about algorithms:
[1] Robust Real-Time Face Detection, Paul Viola and Michael Jones, International Journal of Computer Vision 57(2), 137–154, 2004.
[6] http://www.lienhart.de/Prof._Dr._Rainer_Lienhart/Source_Code_files/ICIP2002.pdf (this provides more details about how the Haar features can be calculated)
[10] Improved Boosting Algorithms Using Confidence-rated Predictions. Schapire and Singer, 1999. - The default detector does not use the original Two-class Discrete AdaBoost Algorithm (that is described, e.g., at http://docs.opencv.org/2.4/modules/ml/doc/boosting.html?highlight=weak#id4 )
[11] More info about boosting: http://cbio.mskcc.org/~aarvey/boosting_papers.html
http://rednoah.users.sourceforge.net/facedet/Face%20Detection%20Report.pdf - it is not the original reference, but discusses the normalization using the variance.
References about face detector using OpenCV:
- How to build OpenCV on Windows: http://www.anlak.com/2013/02/build-debug-opencv-vs2010.html
References about training and testing a face detector using OpenCV, but not modifying its code (just invoking command line tools):
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http://note.sonots.com/SciSoftware/haartraining/document.html
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http://www.cs.princeton.edu/courses/archive/fall08/cos429/CourseMaterials/Precept1/facedetect.pdf
References about other softwares (Python, Matlab, Octave, etc.):
[2] http://www.mathworks.com/help/vision/ref/vision.cascadeobjectdetector-class.html
[3] http://docs.opencv.org/master/d7/d8b/tutorial_py_face_detection.html
[4] https://github.com/Itseez/opencv/blob/master/data/haarcascades/haarcascade_frontalface_default.xml
[5] http://www.mathworks.com/help/vision/ug/opencv-interface.html
[7] At http://www.lienhart.de/Prof._Dr._Rainer_Lienhart/Source_Code.html one can find, e.g., Rainer Lienhart, Alexander Kuranov, and Vadim Pisarevsky. Empirical Analysis of Detection Cascades of Boosted Classifiers for Rapid Object Detection. MRL Technical Report, Intel Labs, May 2002, revised Dec. 2002
[8] http://www.mathworks.com/matlabcentral/fileexchange/29437-viola-jones-object-detection (this set of Matlab scripts is a very good starting point to this project: it parses an XML (it seems the format is the old one), implements the classifier and outputs the results)
[9] There are other related codes at "Fileexchange": http://www.mathworks.com/matlabcentral/fileexchange/?search_submit=fileexchange&query=Viola+Jones+Object+Detection&term=Viola+Jones+Object+Detection