Abstract
Although access control based on human face recognition has become popular in consumer applications, it still has several implementation issues before it can realize a stand-alone access control system. Owing to a lack of computational resources, lightweight and computationally efficient face recognition algorithms are required. The conventional access control systems require significant active cooperation from the users despite its non-aggressive nature. The lighting/illumination change is one of the most difficult and challenging problems for human-face-recognition-based access control applications. This paper presents the design and implementation of a user-friendly, stand-alone access control system based on human face recognition at a distance. The local binary pattern (LBP)-AdaBoost framework was employed for face and eyes detection, which is fast and invariant to illumination changes. It can detect faces and eyes of varied sizes at a distance. For fast face recognition with a high accuracy, the Gabor-LBP histogram framework was modified by substituting the Gabor wavelet with Gaussian derivative filters, which reduced the facial feature size by 40% of the Gabor-LBP-based facial features, and was robust to significant illumination changes and complicated backgrounds. The experiments on benchmark datasets produced face recognition accuracies of 97.27% on an E-face dataset and 99.06% on an XM2VTS dataset, respectively. The system achieved a 91.5% true acceptance rate with a 0.28% false acceptance rate and averaged a 5.26 frames/sec processing speed on a newly collected face image and video dataset in an indoor office environment.
Highlights
With significant advances in biometrics technologies, user authentication systems based on biometrics, such as an iris, fingerprint, and human face, has increased markedly for providing more efficient and secure access control compared to the conventional user authentication system, which uses a password or an Integrated Circuit (IC) card
Overall architecture of of the stand-alone access control system based on human face recognition at a distance with on human face recognition at a distance with RFID
Overall architecture of the proposed user-friendly, stand-alone access control system based on human face recognition at a distance with RFID
Summary
With significant advances in biometrics technologies, user authentication systems based on biometrics, such as an iris, fingerprint, and human face, has increased markedly for providing more efficient and secure access control compared to the conventional user authentication system, which uses a password or an Integrated Circuit (IC) card. Some biometric-based access controls, e.g., fingerprint- and iris-based authentication systems, require specialized and expensive equipment for Sensors 2020, 20, 785; doi:10.3390/s20030785 www.mdpi.com/journal/sensors. To alleviate the aforementioned drawbacks of fingerprint- and iris-based access control, human face recognition (HFR) has been increasingly applied to access control systems. The HFR-based access control has desirable characteristics: (i) it does not require specialized optical equipment and (ii) it provides user-friendly identification and authentication due to the non-intrusive and non-aggressive nature of HFR [1,2]. Salvador et al [3] proposed an automatic reception desk demonstration system with regularized linear discriminant analysis (R-LDA)-based HFR for securing access control to facilities
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