Deep multi-scale feature mixture model for image super-resolution with multiple-focal-length degradation

IF 3.4 3区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Signal Processing-Image Communication Pub Date : 2024-05-10 DOI:10.1016/j.image.2024.117139

Jun Xiao , Qian Ye , Rui Zhao , Kin-Man Lam , Kao Wan

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Abstract

Single image super-resolution is a classic problem in computer vision. In recent years, deep learning-based models have achieved unprecedented success with this problem. However, most existing deep super-resolution models unavoidably produce degraded results when applied to real-world images captured by cameras with different focal lengths. The degradation in these images is called multiple-focal-length degradation, which is spatially variant and more complicated than the bicubic downsampling degradation. To address such a challenging issue, we propose a multi-scale feature mixture model in this paper. The proposed model can intensively exploit local patterns from different scales for image super-resolution. To improve the performance, we further propose a novel loss function based on the Laplacian pyramid, which guides the model to recover the information separately of different frequency subbands. Comprehensive experiments show that our proposed model has a better ability to preserve the structure of objects and generate high-quality images, leading to the best performance compared with other state-of-the-art deep single image super-resolution methods.

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用于多焦距退化图像超分辨率的深度多尺度特征混合模型

单图像超分辨率是计算机视觉领域的一个经典问题。近年来，基于深度学习的模型在这一问题上取得了前所未有的成功。然而，大多数现有的深度超分辨率模型在应用于由不同焦距的相机拍摄的真实世界图像时，不可避免地会产生降级结果。这些图像中的劣化现象被称为多焦距劣化，它在空间上存在差异，而且比双三次降采样劣化更为复杂。为了解决这个具有挑战性的问题，我们在本文中提出了一种多尺度特征混合模型。该模型可以充分利用不同尺度的局部模式来实现图像超分辨率。为了提高模型的性能，我们进一步提出了一种基于拉普拉斯金字塔的新型损失函数，引导模型分别恢复不同频率子带的信息。综合实验表明，我们提出的模型能更好地保留物体的结构并生成高质量的图像，与其他最先进的深度单图像超分辨率方法相比，性能最佳。

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来源期刊

Signal Processing-Image Communication 工程技术-工程：电子与电气

CiteScore

8.40

自引率

2.90%

发文量

138

审稿时长

5.2 months

期刊介绍： Signal Processing: Image Communication is an international journal for the development of the theory and practice of image communication. Its primary objectives are the following: To present a forum for the advancement of theory and practice of image communication. To stimulate cross-fertilization between areas similar in nature which have traditionally been separated, for example, various aspects of visual communications and information systems. To contribute to a rapid information exchange between the industrial and academic environments. The editorial policy and the technical content of the journal are the responsibility of the Editor-in-Chief, the Area Editors and the Advisory Editors. The Journal is self-supporting from subscription income and contains a minimum amount of advertisements. Advertisements are subject to the prior approval of the Editor-in-Chief. The journal welcomes contributions from every country in the world. Signal Processing: Image Communication publishes articles relating to aspects of the design, implementation and use of image communication systems. The journal features original research work, tutorial and review articles, and accounts of practical developments. Subjects of interest include image/video coding, 3D video representations and compression, 3D graphics and animation compression, HDTV and 3DTV systems, video adaptation, video over IP, peer-to-peer video networking, interactive visual communication, multi-user video conferencing, wireless video broadcasting and communication, visual surveillance, 2D and 3D image/video quality measures, pre/post processing, video restoration and super-resolution, multi-camera video analysis, motion analysis, content-based image/video indexing and retrieval, face and gesture processing, video synthesis, 2D and 3D image/video acquisition and display technologies, architectures for image/video processing and communication.