纹理与非纹理：一种用于对自然图像中感知到的“纹理特性”进行分类的简单计算方法。

Textures vs Non-Textures: A Simple Computational Method for Classifying Perceived 'Texturality' in Natural Images.

作者信息

Kurosawa Fumiya, Orima Taiki, Okada Kosuke, Motoyoshi Isamu

机构信息

Department of Integrated Sciences, The University of Tokyo, Meguro-ku, Japan.

Department of Life Sciences, The University of Tokyo Graduate School of Arts and Sciences, Meguro-ku, Tokyo, Japan.

出版信息

Iperception. 2021 Oct 28;12(5):20416695211054540. doi: 10.1177/20416695211054540. eCollection 2021 Sep-Oct.

DOI:10.1177/20416695211054540

PMID:34876972

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8645308/

Abstract

The visual system represents textural image regions as simple statistics that are useful for the rapid perception of scenes and surfaces. What images 'textures' are, however, has so far mostly been subjectively defined. The present study investigated the empirical conditions under which natural images are processed as texture. We first show that 'texturality' - i.e., whether or not an image is perceived as a texture - is strongly correlated with the perceived similarity between an original image and its Portilla-Simoncelli (PS) synthesized image. We found that both judgments are highly correlated with specific PS statistics of the image. We also demonstrate that a discriminant model based on a small set of image statistics could discriminate whether a given image was perceived as a texture with over 90% accuracy. The results provide a method to determine whether a given image region is represented statistically by the human visual system.

摘要

视觉系统将纹理图像区域表示为简单的统计数据，这些数据有助于快速感知场景和表面。然而，图像“纹理”究竟是什么，迄今为止大多是主观定义的。本研究调查了自然图像被作为纹理处理的经验条件。我们首先表明，“纹理性”——即一幅图像是否被视为一种纹理——与原始图像及其波蒂拉-西蒙切利（PS）合成图像之间的感知相似度密切相关。我们发现，这两种判断都与图像的特定PS统计数据高度相关。我们还证明，基于一小部分图像统计数据的判别模型能够以超过90%的准确率判别一幅给定图像是否被视为一种纹理。这些结果提供了一种方法，来确定人类视觉系统是否以统计方式表征给定的图像区域。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9a36/8645308/1f505eaf799c/10.1177_20416695211054540-fig1.jpg

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纹理与非纹理：一种用于对自然图像中感知到的“纹理特性”进行分类的简单计算方法。

Textures vs Non-Textures: A Simple Computational Method for Classifying Perceived 'Texturality' in Natural Images.

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