基于关键点检测的口罩佩戴标准化检测方法

IF 0.5 Q4 ENGINEERING, MULTIDISCIPLINARY

Journal of Computational Methods in Sciences and Engineering Pub Date : 2023-12-15 DOI:10.3233/jcm227007

Hongqian Hu, Hui Wang, Xuanyin Wang

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引用次数: 0

摘要

自 COVID-19 爆发以来，外出佩戴口罩已成为一种日常习惯。针对目前戴口罩检测准确率低、不规范等问题，提出了一种基于关键点的戴口罩检测方法。首先，使用 YOLOv7_tiny 算法检测人脸是否佩戴口罩，并将得到的 ROI（感兴趣区域）缩放为固定大小。然后，采用关键点检测算法从 ROI 区域中提取 68 个人脸关键点，并同时对面具区域进行图像分割。最后，利用人脸地标与面具区域的对应关系来评估面具是否佩戴正确。实验结果表明，该方法在自然环境下的平均检测速度约为 14FPS，是否佩戴口罩的 mAP（平均精度）为 66.34%，是否佩戴口罩的检测准确率为 96%，能有效满足实际应用要求。

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A method for standardized wear detection of masks based on key point detection

Since the outbreak of COVID-19, wearing masks outside has become a daily habit. In view of the current problems of low accuracy and lack of non-standard detection of mask wearing, a detection method for mask wearing based on key points is proposed. First, the YOLOv7_tiny algorithm is used to detect whether the face is wearing a mask, and the resulting ROI (Region of Interest) is scaled to a fixed size. Then, the key point detection algorithm was adopted to extract 68 key points of the face from the ROI region, and the image segmentation of the mask area is performed simultaneously. Finally, the correspondence between face landmarks and the mask area is used to assess whether the mask is worn correctly. The experimental results show that the average detection speed of this method in the natural environment is about 14FPS, the mAP (mean Average Precision) of whether to wear a mask is 66.34%, and the detection accuracy of whether to wear a mask is 96%, which can effectively meet the actual application requirements.

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来源期刊

Journal of Computational Methods in Sciences and Engineering ENGINEERING, MULTIDISCIPLINARY-

CiteScore

0.80

自引率

0.00%

发文量

152

期刊介绍： The major goal of the Journal of Computational Methods in Sciences and Engineering (JCMSE) is the publication of new research results on computational methods in sciences and engineering. Common experience had taught us that computational methods originally developed in a given basic science, e.g. physics, can be of paramount importance to other neighboring sciences, e.g. chemistry, as well as to engineering or technology and, in turn, to society as a whole. This undoubtedly beneficial practice of interdisciplinary interactions will be continuously and systematically encouraged by the JCMSE.