Various factors such as ambient lighting conditions, noise, motion blur, etc. affect the quality of captured face images. Poor quality face images often reduce the performance of face analysis and recognition systems. Hence, it is important to enhance the quality of face images collected in such conditions. We present a multi-task face restoration network, called Network Architecture Search for Face Enhancement (NASFE), which can enhance poor quality face images containing a single degradation (i.e. noise or blur) or multiple degradations (noise+blur+low-light). During training, NASFE uses clean face images of a person present in the degraded image to extract the identity information in terms of features for restoring the image. Furthermore, the network is guided by an identity-loss so that the identity in-formation is maintained in the restored image. Additionally, we propose a network architecture search-based fusion network in NASFE which fuses the task-specific features that are extracted using the task-specific encoders. We introduce FFT-op and deveiling operators in the fusion network to efficiently fuse the task-specific features. Comprehensive experiments on synthetic and real images demonstrate that the proposed method outperforms many recent state-of-the-art face restoration and enhancement methods in terms of quantitative and visual performance.
翻译:环境照明条件、噪音、运动模糊等各种因素影响被捕获的面部图像的质量。低质量脸部图像往往降低脸部分析和识别系统的性能。因此,必须提高在这种条件下收集的面部图像的质量。我们展示了一个多任务面部恢复网络,称为网络结构搜索增强面部(NASFE),这个网络可以强化包含单一降解(即噪音或模糊)或多重降解(nisese+bllur+low-light)的低质量面部图像。在培训期间,NASFE使用在退化图像中出现的人的干净脸部图像,从恢复图像的特征方面提取身份信息。此外,网络以身份损失为指导,使在恢复的图像中保持特征。此外,我们提议在NASFFE建立一个网络结构搜索增强面部图像网络,将使用特定任务方位(即噪声或模糊)或多重降解(nice+blblur+low-light-light-light-light-light)或多个任务方位操作者,以便有效地结合特定任务特征。关于合成图像和真实面面面面图的综合性实验,展示了拟议的改进方法。
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