Recently, most of state-of-the-art single image super-resolution (SISR) methods have attained impressive performance by using deep convolutional neural networks (DCNNs). The existing SR methods have limited performance due to a fixed degradation settings, i.e. usually a bicubic downscaling of low-resolution (LR) image. However, in real-world settings, the LR degradation process is unknown which can be bicubic LR, bilinear LR, nearest-neighbor LR, or real LR. Therefore, most SR methods are ineffective and inefficient in handling more than one degradation settings within a single network. To handle the multiple degradation, i.e. refers to multi-domain image super-resolution, we propose a deep Super-Resolution Residual StarGAN (SR2*GAN), a novel and scalable approach that super-resolves the LR images for the multiple LR domains using only a single model. The proposed scheme is trained in a StarGAN like network topology with a single generator and discriminator networks. We demonstrate the effectiveness of our proposed approach in quantitative and qualitative experiments compared to other state-of-the-art methods.
翻译:最近,大多数最先进的单一图像超分辨率(SISR)方法都通过使用深层进化神经网络(DCNNS)取得了令人印象深刻的性能。现有的SR方法由于固定的降解环境(即通常对低分辨率(LR)图像进行双立降幅)而表现有限。然而,在现实世界环境中,LR降解过程并不为人所知,它可以是双立方程、双线LR、近邻LR或真实的LR。因此,大多数SR方法在处理单一网络中不止一个降解环境方面是无效和低效的。为了处理多重降解,即指多面图像超分辨率,我们建议采用一种深超分辨率的残余StarGAN(SR2*GAN)(SR2*GAN)这一创新和可扩展的方法,即仅使用单一模型将多个LR域的LR图像超级溶解成。拟议办法在StarGAN(StarGAN)中培训,类似于与单一发电机和歧视网络的网络表层学。我们用定量和定性方法比其他实验中展示了我们提议的定量和定性方法的有效性。
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