A Lightweight End-to-end Network for Wearing Mask Recognition on Low-resolution Images

Menglei Li, Hongbo Chen, Zixue Cheng
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Abstract

In realistic scenarios, resolution is still one of the major problems in wearing mask recognition. Due to the large distances between surveillance cameras and human faces, facial images captured by low-power devices usually have low resolution and lead to poor recognition results. To address the above issue, we propose a lightweight end-to-end network to reconstruct Super-resolution (SR) images and achieve wearing mask recognition. Besides, to apply to challenging real applications, we combine hardware devices and software technology to simulate the recognition process of wearing masks in real scenarios. To demonstrate the effectiveness of the method, we comprehensively evaluate our proposed method by comparing it with state-of-the-art methods. The recognition accuracy using super-resolution is 98.44%, outperforming RepVGG-A2 (97.00%) and ResNet34 (93.75%). Moreover, experimental results show that the number of parameters and FLOPs in our recognition model is 9.34 million and 1.85 billion, respectively, both of which outperform traditional CNN methods (20 million+ parameters and 3 billion+ FLOPs). The performance of our recognition system is competitive with state-of-the-art methods in terms of low memory usage and computational complexity, showing that the system can be cost-effectively and widely applied in real-world environments and thus has potential applications in respiratory disease prevention.
基于低分辨率图像的面罩识别轻量端到端网络
在现实场景中,分辨率仍然是戴口罩识别的主要问题之一。由于监控摄像头与人脸距离较远,低功耗设备采集的人脸图像通常分辨率较低,导致识别效果不佳。为了解决上述问题,我们提出了一种轻量级的端到端网络来重建超分辨率(SR)图像并实现戴面具识别。此外,为了适应具有挑战性的实际应用,我们将硬件设备和软件技术相结合,模拟真实场景中戴口罩的识别过程。为了证明该方法的有效性,我们通过将其与最先进的方法进行比较来全面评估我们提出的方法。超分辨率识别准确率为98.44%,优于RepVGG-A2(97.00%)和ResNet34(93.75%)。此外,实验结果表明,我们的识别模型中参数和FLOPs的数量分别为934万个和18.5亿个,均优于传统的CNN方法(2000万+参数和30亿+ FLOPs)。我们的识别系统在低内存使用和计算复杂性方面与最先进的方法具有竞争力,表明该系统可以经济有效地广泛应用于现实环境,因此在呼吸系统疾病预防方面具有潜在的应用前景。
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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