基于图像层次选择注意的JND配置文件

Dongdong Zhang, Lijing Gao, D. Zang, Yaoru Sun, Jiujun Cheng
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引用次数: 0

摘要

传统的像素域just- visible -distortion (JND)模型大多是综合空间亮度适应效应和纹理对比度掩蔽效应来计算JND阈值的。近年来,随着视觉注意可计算模型的迅速发展,研究人员开始考虑图像的视觉显著性对JND模型进行改进,提出了一种结合人眼传统视觉特征和中央凹特征来提高JND阈值的注视点空间JND模型(FSJND)。然而,对于某些高分辨率图像,FSJND模型计算的阈值可能会被高估。本文提出了一种新的像素域JND轮廓,其中建立了一个多级调制函数来反映分层选择视觉注意对JND阈值的影响。为了获得更精确的JND阈值,我们还在调制函数中考虑了对比度掩蔽。与现有的JND轮廓相比,该模型可以承受更大的失真,具有更好的感知质量。提出的JND模型可以很容易地应用于许多领域,如压缩、错误保护等。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A JND Profile Based on Hierarchically Selective Attention for Images
Most of the traditional just-noticeable-distortion (JND) models in pixel domain compute the JND threshold by incorporating the spatial luminance adaptation effect and the textures contrast masking effect. Recently, with the rapid development of the computable models of visual attention, researchers started to improve the JND model by considering visual saliency of images, a foveated spatial JND model (FSJND) was proposed by incorporating the traditional visual characteristics and fovea characteristic of human eyes to enhance JND thresholds. However, the thresholds computed by the FSJND model may be overestimated for some high resolution images. In this paper, we proposed a new JND profile in pixel domain, in which a multi-level modulation function is built to reflect the effect of hierarchically selective visual attention on JND thresholds. The contrast masking is also considered in our modulation function to obtain more accurate JND thresholds. Compared with the lasted JND profiles, the proposed model can tolerate more distortion and has much better perceptual quality. The proposed JND model can be easily applied in many areas, such as compression, error protection, and so on.
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