A DEEP LEARNING MODEL FOR FACE RECOGNITION IN PRESENCE OF MASK

Acta Informatica Malaysia Pub Date : 2022-01-01 DOI:10.26480/aim.02.2022.43.46

Kalembo Vikalwe Shakrani, Ngonidzashe Mathew Kanyangarara, Prince Tinashe Parowa, Vibhor Gupta, Rajendra Kumar

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引用次数: 1

Abstract

Image classifications and object detection are common study topics in the rapidly expanding technological advancements to identify and detect real-time problems in major federal fields like public places, airports and army bases using webcams and surveillance cameras opensource platforms. The goal of this study is to suggest Open Source Computer Vision (OpenCV) and Convolutional Neural Network (CNN) techniques for identifying a person in presence of face mask from image datasets and real-time (live streaming video). For experimental purpose a parent directory consisting of three main directories (i.e., training, testing and validation sets) and two sub directories inside those containing Mask (M) and No Mask (N), respectively are used. Mask subdirectories have images of people wearing masks and the vice versa is for Non Mask. Total 1006 images are used including 503 Mask and 503 No-Mask. The data augmentation pre-processing method is used to increase the dataset size to improve the accuracy of the suggested model. The proposed system uses a camra inbuilt on drone to capture real-time image for recognition using Conventional Neural Network (CNN). The proposed model is constructed, compiled and trained using Tensor flow and Keras. The final training accuracy recorded is 0.93, while the validation accuracy recorded is 0.94, the training loss is 0.17, the validation loss here observed is 0.1672, and the test loss is 0.15. The classification accuracy of the proposed system observed is 0.95.

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基于面具的人脸识别深度学习模型

在快速发展的技术进步中，图像分类和目标检测是常见的研究课题，用于识别和检测公共场所、机场和军队基地等主要联邦领域的实时问题，使用网络摄像头和监控摄像头开源平台。本研究的目标是提出开源计算机视觉(OpenCV)和卷积神经网络(CNN)技术，用于从图像数据集和实时(直播视频)中识别有口罩的人。对于实验目的，使用由三个主目录(即训练集、测试集和验证集)组成的父目录和分别包含Mask (M)和No Mask (N)的子目录。面具子目录有戴面具的人的图像，反之亦然，是非面具。总共使用了1006张图片，包括503张Mask和503张No-Mask。采用数据增强预处理方法增加数据集大小，提高模型的精度。该系统使用内置在无人机上的摄像头捕捉实时图像，并使用传统神经网络(CNN)进行识别。该模型使用张量流和Keras进行构建、编译和训练。最终记录的训练精度为0.93，记录的验证精度为0.94，训练损失为0.17，这里观察到的验证损失为0.1672，测试损失为0.15。该系统的分类精度为0.95。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Acta Informatica Malaysia

自引率

0.00%

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审稿时长

12 weeks