超分辨率:使机器看得更清楚

Weimin Tan, Bo Yan, Bahetiyaer Bare
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引用次数: 40

摘要

识别小尺寸的图像或小物体是一个非常具有挑战性的问题,因为鉴别表示很难从它们所包含的有限信息中学习,而且它们的外观质量很差,物体结构不清楚。现有的研究工作通常是在像素空间中提高低分辨率图像的分辨率,以便为人类观看提供更好的视觉质量。然而,在非常小的图像尺寸的情况下,这些方法的改进性能通常是有限的,甚至微不足道(我们将在本文中明确地展示它)。与图像超分辨率(ISR)不同,本文提出了一种新的超分辨率技术——特征超分辨率(FSR),该技术旨在增强小尺寸图像的识别能力,从而为机器提供更高的识别精度。为了实现这一目标,我们提出了一种新的特征超分辨率生成对抗网络(FSR-GAN)模型,该模型通过在特征空间中执行超分辨率,将小尺寸图像的原始差特征转换为高度判别的特征。我们的FSR-GAN由两个子网络组成:一个特征生成器网络G和一个特征鉴别器网络D。通过以另一种方式训练G和D网络,我们鼓励G网络发现小尺寸和大尺寸图像之间的潜在分布相关性,然后使用G来改进小图像的表示。在Oxford5K、Paris、Holidays和Flick100k数据集上的大量实验结果表明,本文提出的FSR方法可以有效地增强特征的区分能力。即使当查询图像的分辨率大大降低时,例如,原始尺寸为1/64,我们的FSR方法增强的查询特征在不同图像分辨率下获得了惊人的高检索性能,与原始查询特征相比,检索精度提高了25%。
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Feature Super-Resolution: Make Machine See More Clearly
Identifying small size images or small objects is a notoriously challenging problem, as discriminative representations are difficult to learn from the limited information contained in them with poor-quality appearance and unclear object structure. Existing research works usually increase the resolution of low-resolution image in the pixel space in order to provide better visual quality for human viewing. However, the improved performance of such methods is usually limited or even trivial in the case of very small image size (we will show it in this paper explicitly). In this paper, different from image super-resolution (ISR), we propose a novel super-resolution technique called feature super-resolution (FSR), which aims at enhancing the discriminatory power of small size image in order to provide high recognition precision for machine. To achieve this goal, we propose a new Feature Super-Resolution Generative Adversarial Network (FSR-GAN) model that transforms the raw poor features of small size images to highly discriminative ones by performing super-resolution in the feature space. Our FSR-GAN consists of two subnetworks: a feature generator network G and a feature discriminator network D. By training the G and the D networks in an alternative manner, we encourage the G network to discover the latent distribution correlations between small size and large size images and then use G to improve the representations of small images. Extensive experiment results on Oxford5K, Paris, Holidays, and Flick100k datasets demonstrate that the proposed FSR approach can effectively enhance the discriminatory ability of features. Even when the resolution of query images is reduced greatly, e.g., 1/64 original size, the query feature enhanced by our FSR approach achieves surprisingly high retrieval performance at different image resolutions and increases the retrieval precision by 25% compared to the raw query feature.
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