Receptive Field Size vs. Model Depth for Single Image Super-resolution.

IF 10.8 1区 计算机科学 Q1 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE
Ruxin Wang, Mingming Gong, Dacheng Tao
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引用次数: 0

Abstract

The performance of single image super-resolution (SISR) has been largely improved by innovative designs of deep architectures. An important claim raised by these designs is that the deep models have large receptive field size and strong nonlinearity. However, we are concerned about the question that which factor, receptive field size or model depth, is more critical for SISR. Towards revealing the answers, in this paper, we propose a strategy based on dilated convolution to investigate how the two factors affect the performance of SISR. Our findings from exhaustive investigations suggest that SISR is more sensitive to the changes of receptive field size than to the model depth variations, and that the model depth must be congruent with the receptive field size to produce improved performance. These findings inspire us to design a shallower architecture which can save computational and memory cost while preserving comparable effectiveness with respect to a much deeper architecture.

单张图像超分辨率的感受野大小与模型深度的关系
深度架构的创新设计在很大程度上提高了单图像超分辨率(SISR)的性能。这些设计提出的一个重要主张是,深度模型具有较大的感受野尺寸和较强的非线性。然而,我们关心的问题是,感受野大小和模型深度哪个因素对 SISR 更为关键。为了揭示答案,我们在本文中提出了一种基于扩张卷积的策略,以研究这两个因素如何影响 SISR 的性能。详尽的研究结果表明,SISR 对感受野大小的变化比对模型深度的变化更敏感,而且模型深度必须与感受野大小一致才能提高性能。这些发现启发我们设计一种较浅的架构,既能节省计算和内存成本,又能保持与更深架构相当的效果。
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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来源期刊
IEEE Transactions on Image Processing
IEEE Transactions on Image Processing 工程技术-工程:电子与电气
CiteScore
20.90
自引率
6.60%
发文量
774
审稿时长
7.6 months
期刊介绍: The IEEE Transactions on Image Processing delves into groundbreaking theories, algorithms, and structures concerning the generation, acquisition, manipulation, transmission, scrutiny, and presentation of images, video, and multidimensional signals across diverse applications. Topics span mathematical, statistical, and perceptual aspects, encompassing modeling, representation, formation, coding, filtering, enhancement, restoration, rendering, halftoning, search, and analysis of images, video, and multidimensional signals. Pertinent applications range from image and video communications to electronic imaging, biomedical imaging, image and video systems, and remote sensing.
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