Recreating early Islamic glass lamp lighting

IEEE Conference on Visual Analytics Science and Technology Pub Date : 2009-09-22 DOI:10.2312/VAST/VAST09/033-040

Joseph T. Kider, Rebecca L. Fletcher, Nancy Xiaonan Yu, R. Holod, A. Chalmers, N. Badler

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引用次数: 16

Abstract

Early Islamic light sources are not simple, static, uniform points, and the fixtures themselves are often combinations of glass, water, fuel and flame. Various physically based renderers such as Radiance are widely used for modeling ancient architectural scenes; however they rarely capture the true ambiance of the environment due to subtle lighting effects. Specifically, these renderers often fail to correctly model complex caustics produced by glass fixtures, water level, and fuel sources. While the original fixtures of the 8th through 10th century Mosque of Cordoba in Spain have not survived, we have applied information gathered from earlier and contemporary sites and artifacts, including those from Byzantium, to assume that it was illuminated by either single jar lamps or supported by polycandela that cast unique downward caustic lighting patterns which helped individuals to navigate and to read. To re-synthesize such lighting, we gathered experimental archaeological data and investigated and validated how various water levels and glass fixture shapes, likely used during early Islamic times, changed the overall light patterns and downward caustics. In this paper, we propose a technique called Caustic Cones, a novel data-driven method to "shape" the light emanating from the lamps to better recreate the downward lighting without resorting to computationally expensive photon mapping renderers.Additionally, we demonstrate on a rendering of the Mosque of Cordoba how our approach greatly benefits archaeologists and architectural historians by providing a more authentic visual simulation of early Islamic glass lamp lighting.

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重现早期伊斯兰玻璃灯照明

早期的伊斯兰光源并不是简单的、静态的、均匀的点，灯具本身往往是玻璃、水、燃料和火焰的组合。各种基于物理的渲染器，如Radiance被广泛用于古代建筑场景的建模;然而，由于微妙的灯光效果，它们很少捕捉到环境的真实氛围。具体来说，这些渲染器往往不能正确地模拟由玻璃固定装置、水位和燃料来源产生的复杂焦散。虽然8世纪至10世纪西班牙科尔多瓦清真寺的原始装置没有幸存下来，但我们应用了从早期和当代遗址和文物中收集的信息，包括来自拜占庭的信息，假设它是由单罐灯或由多坎德拉支撑的，这些多坎德拉投射出独特的向下腐蚀性照明模式，帮助人们导航和阅读。为了重新合成这样的照明，我们收集了考古实验数据，并调查和验证了早期伊斯兰时代可能使用的不同水位和玻璃灯具形状如何改变了整体光线模式和向下的焦散度。在本文中，我们提出了一种称为苛性锥的技术，这是一种新颖的数据驱动方法，可以“塑造”灯具发出的光线，从而更好地重建向下照明，而无需诉诸于计算昂贵的光子映射渲染器。此外，我们还展示了科尔多瓦清真寺的渲染图，通过提供早期伊斯兰玻璃灯照明的更真实的视觉模拟，我们的方法如何极大地造福于考古学家和建筑历史学家。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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IEEE Conference on Visual Analytics Science and Technology

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