Face recognition with Bayesian convolutional networks for robust surveillance systems

Zafar, Umara; Ghafoor, Mubeen; Zia, Tehseen; Ahmed, Ghufran; Latif, Ahsan; Malik, Kaleem Razzaq; Sharif, Abdullahi Mohamud

doi:10.1186/s13640-019-0406-y

Cited by 60 publications

(36 citation statements)

References 40 publications

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“…The best accuracy value is bold. On AT&T dataset, results of the proposed method and [21] are the best with testing accuracy of 100% whilst methods in [1,9,10] are from 94.0% to 98.3%. Our proposed method is the best with 100% accuracy on Yale dataset, the second highest accuracy is 99% in [10], it is 1% lower than ours.…”

Section: B Results Of Experimentsmentioning

confidence: 95%

“…So, authors in [15] need to apply complex image processing for enhancing before using the CNN model in [9] in order to reduce errors. This proposed model also is smaller than [21], they used 5 CONV layers which same as ours but 1 more [15] uses ResNet architecture with great complexity. So, all of these models have much more complexity than our proposed model.…”

Section: B Design Cnn Modelmentioning

confidence: 99%

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A Lightweight Face Recognition Model Using Convolutional Neural Network for Monitoring Students in E-Learning

Long¹

2020

IJMECS

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Section: B Results Of Experimentsmentioning

confidence: 95%

Section: B Design Cnn Modelmentioning

confidence: 99%

A Lightweight Face Recognition Model Using Convolutional Neural Network for Monitoring Students in E-Learning

Long¹

2020

IJMECS

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“…These works mainly use some features like Gabor features [12], wavelet [14] and fused them with dimensionality reduction techniques like LDA [12] or PCA [5] and then used classifiers like SVM citea31 or ANN [12], [14], [5]. In addition to this, many techniques reported in the literature have implemented nature-inspired optimization techniques like cuckoo search [13], PSO (Particle Swarm Optimization) [32] for face recognition. Recently, due to the promising success of deep architectures like CNN (Convolutional Neural Network), researchers have started using these architectures for face recognition.…”

Section: Fig 2: Flow Of Feature Extractionmentioning

confidence: 99%

“…Recently, due to the promising success of deep architectures like CNN (Convolutional Neural Network), researchers have started using these architectures for face recognition. Exemplary implementations can be found in [32], [4]. Face recognition based on deep learning being a vast domain and not being the scope of this study, we do not present a detailed study on it.…”

Section: Fig 2: Flow Of Feature Extractionmentioning

confidence: 99%

Smart Gate: Intelligent Security System Based on Face Recognition

Shah*,

Shukla,

Pandya

2020

IJITEE

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Features of Human face is one of the unique biometrics used for identifying and recognizing humans. This makes face recognition system an integral component of numerous applications like identity verification of personnel at gates in many organizations, for controlled access of confidential resources, recognizing intruders by nationwide defense institutions, and such many more. Due to this the unavoidable need of face recognition system, practitioners and researchers are putting their continuous efforts to rectify and optimize the face recognition system for different perspectives in terms of accuracy, time, and storage. The techniques are also optimized for face captured at different degree of orientation, change of facial expression with time, lighting condition, with and without eyeglass and other props, but as isolated solutions. The main aim of the paper is to propose a system that can be installed at any door or gate which would operate based on integrated face recognition. The major contribution of this paper is twofold: i) An integrated face recognition solution optimized for recognizing multiple people faces captured at different orientations and even wearing eyeglasses of different shapes, sizes and materials ii) Smart Gate system being activated upon successful recognition of all faces captured simultaneously.

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“…Face recognition in images is one of the most challenging research issues in tracking systems (or also as part of an access system) because of different problems [66]. Among these problems are various non-standard poses or expressions using extracted the facial parts.…”

Section: Related Workmentioning

confidence: 99%

A Case Study of Facial Emotion Classification Using Affdex

Magdin

Benko

Koprda

2019

Sensors

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This paper focuses on the analysis of reactions captured by the face analysis system. The experiment was conducted on a sample of 50 university students. Each student was shown 100 random images and the student´s reaction to every image was recorded. The recorded reactions were subsequently compared to the reaction of the image that was expected. The results of the experiment have shown several imperfections of the face analysis system. The system has difficulties classifying expressions and cannot detect and identify inner emotions that a person may experience when shown the image. Face analysis systems can only detect emotions that are expressed externally on a face by physiological changes in certain parts of the face.

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Face recognition with Bayesian convolutional networks for robust surveillance systems

Cited by 60 publications

References 40 publications

A Lightweight Face Recognition Model Using Convolutional Neural Network for Monitoring Students in E-Learning

A Lightweight Face Recognition Model Using Convolutional Neural Network for Monitoring Students in E-Learning

Smart Gate: Intelligent Security System Based on Face Recognition

A Case Study of Facial Emotion Classification Using Affdex

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