Wajdi Farhat scite author profile

This manuscript presents an improved system research that can detect and recognize the person in 3D space automatically and without the interaction of the people's faces. This system is based not only on a quantum computation and measurements to extract the vector features in the phase of characterization but also on learning algorithm (using SVM) to classify and recognize the person. This research presents an improved technique for automatic 3D face recognition using anthropometric proportions and measurement to detect and extract the area of interest which is unaffected by facial expression. This approach is able to treat incomplete and noisy images and reject the non-facial areas automatically. Moreover, it can deal with the presence of holes in the meshed and textured 3D image. It is also stable against small translation and rotation of the face. All the experimental tests have been done with two 3D face datasets FRAV 3D and GAVAB. Therefore, the test's results of the proposed approach are promising because they showed that it is competitive comparable to similar approaches in terms of accuracy, robustness, and flexibility. It achieves a high recognition performance rate of 95.35% for faces with neutral and non-neutral expressions for the identification and 98.36% for the authentification with GAVAB and 100% with some gallery of FRAV 3D datasets.

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Real-time hardware/software co-design of a traffic sign recognition system using Zynq FPGA

Farhat

Faiedh

Souani

et al. 2016

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Wajdi Farhat

Real-time embedded system for traffic sign recognition based on ZedBoard

Design of efficient embedded system for road sign recognition

Novel Technique for 3D Face Recognition Using Anthropometric Methodology

Real-time hardware/software co-design of a traffic sign recognition system using Zynq FPGA

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