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引用次数: 1
摘要
真实感图像合成是计算机图形学中一个具有挑战性的课题。用于捕捉和再现真实场景外观的基于图像的技术已经受到了极大的关注。为了获得基于图像的可光照数据集,即光传输或反射场,需要较长的测量时间和大量的内存。已经提出了几种有效获取光传输的方法[Sen等人,2005;Fuchs et al. 2007]。然而,由于除了最近提出的压缩感知方法[Peers等人,2009]外,大多数先前的研究都集中在场景自适应采样算法上,传统方法无法在具有显著全局照明的场景中有效地执行。在本文中,我们提出了一种基于直接和全局光照分量分离的非自适应采样方法来测量场景的光传输。
Efficient acquisition of light transport based on separation of direct and global components
Photorealistic image synthesis is a challenging topic in computer graphics. Image-based techniques for capturing and reproducing the appearance of real scenes have received a great deal of attention. A long measurement time and a large amount of memory are required in order to acquire an image-based relightable dataset, i.e., light transport or reflectance field. Several approaches have been proposed with the goal of efficiently acquiring light transport [Sen et al. 2005; Fuchs et al. 2007]. However, since, with the exception of the recently proposed compressive sensing method [Peers et al. 2009], most previous studies have focused on scene adaptive sampling algorithms, conventional methods cannot perform efficiently in the case of a scene that has significant global illumination. In this paper, we present a non-adaptive sampling method for measuring light transport of a scene based on separation of the direct and global illumination components.
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