Real-Time Face Detection and Recognition in Complex Background

Real-Time Face Detection and Recognition in Complex Background

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摘要 This paper provides efficient and robust algorithms for real-time face detection and recognition in complex backgrounds. The algorithms are implemented using a series of signal processing methods including Ada Boost, cascade classifier, Local Binary Pattern (LBP), Haar-like feature, facial image pre-processing and Principal Component Analysis (PCA). The Ada Boost algorithm is implemented in a cascade classifier to train the face and eye detectors with robust detection accuracy. The LBP descriptor is utilized to extract facial features for fast face detection. The eye detection algorithm reduces the false face detection rate. The detected facial image is then processed to correct the orientation and increase the contrast, therefore, maintains high facial recognition accuracy. Finally, the PCA algorithm is used to recognize faces efficiently. Large databases with faces and non-faces images are used to train and validate face detection and facial recognition algorithms. The algorithms achieve an overall true-positive rate of 98.8% for face detection and 99.2% for correct facial recognition. This paper provides efficient and robust algorithms for real-time face detection and recognition in complex backgrounds. The algorithms are implemented using a series of signal processing methods including Ada Boost, cascade classifier, Local Binary Pattern (LBP), Haar-like feature, facial image pre-processing and Principal Component Analysis (PCA). The Ada Boost algorithm is implemented in a cascade classifier to train the face and eye detectors with robust detection accuracy. The LBP descriptor is utilized to extract facial features for fast face detection. The eye detection algorithm reduces the false face detection rate. The detected facial image is then processed to correct the orientation and increase the contrast, therefore, maintains high facial recognition accuracy. Finally, the PCA algorithm is used to recognize faces efficiently. Large databases with faces and non-faces images are used to train and validate face detection and facial recognition algorithms. The algorithms achieve an overall true-positive rate of 98.8% for face detection and 99.2% for correct facial recognition.

作者 Xin Zhang Thomas Gonnot Jafar Saniie

机构地区 Department of Electrical and Computer Engineering

出处《Journal of Signal and Information Processing》 2017年第2期99-112,共14页 信号与信息处理（英文）

关键词 FACE Detection FACIAL Recognition ADA BOOST Algorithm CASCADE CLASSIFIER Local Binary Pattern Haar-Like Features Principal Component Analysis Face Detection Facial Recognition Ada Boost Algorithm Cascade Classifier Local Binary Pattern Haar-Like Features Principal Component Analysis

分类号 TP39 [自动化与计算机技术—计算机应用技术]

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参考文献1

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Journal of Signal and Information Processing

2017年第2期

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Real-Time Face Detection and Recognition in Complex Background

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