A Curvature Based Method for Blind Mesh Visual Quality Assessment Using a General Regression Neural Network

Ilyass Abouelaziz, M. Hassouni, H. Cherifi
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引用次数: 19

Abstract

No-reference quality assessment is a challenging issue due to the non-existence of any information related to the reference and the unknown distortion type. The main goal is to design a computational method to objectively predict the human perceived quality of a distorted mesh and deal with the practical situation when the reference is not available. In this work, we design a no reference method that relies on the general regression neural network (GRNN). Our network is trained using the mean curvature which is an important perceptual feature representing the visual aspect of a 3D mesh. Relatively to the human subjective scores, the trained network successfully assesses the visual quality, in addition, the experimental results show that the proposed method provides good correlations with the subject scores and competitive scores comparing to some influential and effective full and reduced reference existing metrics.
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基于曲率的广义回归神经网络盲网格视觉质量评价方法
由于不存在与参考文献相关的任何信息以及未知的失真类型,无参考文献质量评估是一个具有挑战性的问题。主要目标是设计一种计算方法来客观地预测变形网格的人类感知质量,并处理没有参考资料时的实际情况。在这项工作中,我们设计了一种依赖于一般回归神经网络(GRNN)的无参考方法。我们的网络是使用平均曲率来训练的,这是一个重要的感知特征,代表了3D网格的视觉方面。相对于人类的主观评分,训练后的网络能够成功地评估视觉质量。此外,实验结果表明,与一些有影响和有效的完整和简化的参考现有指标相比,所提出的方法与主题分数和竞争分数具有良好的相关性。
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