Department of Software Science & Engineering, Kunsan National University, Gunsan-si 54150, Korea.
Sensors (Basel). 2022 Jul 18;22(14):5359. doi: 10.3390/s22145359.
With the recent increase in intelligent CCTVs for visual surveillance, a new image degradation that integrates resolution conversion and synthetic rain models is required. For example, in heavy rain, face images captured by CCTV from a distance have significant deterioration in both visibility and resolution. Unlike traditional image degradation models (IDM), such as rain removal and super resolution, this study addresses a new IDM referred to as a and proposes a method for restoring high-resolution face images (HR-FIs) from ow-esolution eavy ain ace mages (LRHR-FI). To this end, a two-stage network is presented. The first stage generates low-resolution face images (LR-FIs), from which heavy rain has been removed from the LRHR-FIs to improve visibility. To realize this, an interpretable IDM-based network is constructed to predict physical parameters, such as rain streaks, transmission maps, and atmospheric light. In addition, the image reconstruction loss is evaluated to enhance the estimates of the physical parameters. For the second stage, which aims to reconstruct the HR-FIs from the LR-FIs outputted in the first stage, facial component-guided adversarial learning (FCGAL) is applied to boost facial structure expressions. To focus on informative facial features and reinforce the authenticity of facial components, such as the eyes and nose, a face parsing-guided generator and facial local discriminators are designed for FCGAL. The experimental results verify that the proposed approach based on a physical-based network design and FCGAL can remove heavy rain and increase the resolution and visibility simultaneously. Moreover, the proposed heavy rain face image restoration outperforms state-of-the-art models of heavy rain removal, image-to-image translation, and super resolution.
随着智能 CCTV 用于视觉监控的普及,需要一种新的图像降级方法,该方法集成了分辨率转换和合成雨模型。例如,在大雨中,CCTV 从远处捕获的人脸图像在可见度和分辨率方面都有明显的恶化。与传统的图像降级模型(IDM)不同,例如雨去除和超分辨率,本研究提出了一种新的 IDM,称为 ,并提出了一种从低分辨率重雨人脸图像(LRHR-FI)恢复高分辨率人脸图像(HR-FI)的方法。为此,提出了一个两阶段网络。第一阶段生成低分辨率人脸图像(LR-FI),从中去除 LRHR-FI 中的大雨以提高可见度。为此,构建了一个基于可解释 IDM 的网络来预测物理参数,例如雨条纹、传输图和大气光。此外,评估图像重建损失以增强物理参数的估计。对于第二阶段,旨在从第一阶段输出的 LR-FI 中重建 HR-FI,应用基于面部组件的对抗学习(FCGAL)来增强面部结构表达。为了关注信息丰富的面部特征并增强面部组件(如眼睛和鼻子)的真实性,设计了用于 FCGAL 的面部解析引导生成器和面部局部鉴别器。实验结果验证了基于物理网络设计和 FCGAL 的所提出的方法可以去除大雨并同时提高分辨率和可见度。此外,所提出的大雨人脸图像恢复方法优于大雨去除、图像到图像转换和超分辨率的最新模型。
