Generation of random non-overlapping dot patterns for light guides using molecular dynamics simulations with variable r-cut and reflective boundary techniques

Chang JG; Lee CT; Fang YB; Hwang CC

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Generation of random non-overlapping dot patterns for light guides using molecular dynamics simulations with variable r-cut and reflective boundary techniques

机译：使用具有可变r-cut和反射边界技术的分子动力学模拟为光导生成随机的不重叠的点阵图

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This paper presents a molecular dynamics (MD) scheme for the automatic generation of dot patterns for the light guides used in LCD backlight modules. Several MD computational techniques are integrated with the conventional MD scheme to enable the adjustment of the dot density in specific regions of the light guide in order to create a dot distribution with a high dot density variation and a high spatial uniformity. These techniques include the cell division technique, the variable r-cut technique, the boundary smoothing technique and the reflective boundary condition. The reflective boundary condition enables a precise control of the dot density within each cell, and is instrumental in achieving a dot distribution with both a high dot density variation and a high spatial uniformity. The performance of the proposed dot generation scheme is verified by considering the practical example of the dot pattern design of a light guide with a single LED light source located in the lower-right corner. The numerical results confirm the ability of the proposed method to achieve an even luminance condition by establishing a dot pattern whose density increases concentrically with an increasing distance from the light source. (c) 2007 Elsevier B.V. All rights reserved.

机译：本文提出了一种分子动力学（MD）方案，用于自动生成LCD背光模块中使用的光导的点图案。几种MD计算技术与常规MD方案集成在一起，可以调节光导特定区域中的点密度，从而创建具有高点密度变化和高空间均匀性的点分布。这些技术包括像元分割技术，可变r-cut技术，边界平滑技术和反射边界条件。反射边界条件使得能够精确控制每个单元中的点密度，并且有助于实现具有高点密度变化和高空间均匀性的点分布。通过考虑具有位于右下角的单个LED光源的光导的点图案设计的实际示例，验证了所提出的点生成方案的性能。数值结果证实了该方法通过建立点图案的能力来实现均匀的亮度条件，该点图案的密度随着与光源的距离的增加而同心地增加。（c）2007 Elsevier B.V.保留所有权利。

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《Computer physics communications》 |2007年第11期|共12页
作者
Chang JG; Lee CT; Fang YB; Hwang CC;
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正文语种 eng
中图分类计算机的应用;
关键词
dot generation; molecular dynamics; light guide; backlight; variable r-cut technique; reflective boundary condition; MESH GENERATION;

机译：点的产生;分子动力学;光导;背光;可变r-cut技术;反射边界条件;MESH生成;

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1. Generation of random non-overlapping dot patterns for light guides using molecular dynamics simulations with variable r-cut and reflective boundary techniques [J] . Chang JG, Lee CT, Fang YB, Computer physics communications . 2007,第11期

机译：使用具有可变r-cut和反射边界技术的分子动力学模拟为光导生成随机的不重叠的点阵图
2. Generating random and nonoverlapping dot patterns for liquid-crystal display backlight light guides using molecular-dynamics method [J] . Jee-Gong Chang, Ming-Horng Su, Cheng-Tai Lee, Journal of Applied Physics . 2005,第11期

机译：使用分子动力学方法为液晶显示器背光光导生成随机和不重叠的点图案
3. Random dot generation scheme using molecular dynamics method for illumination design of a round plane LED source light guide [J] . Jee-Gong Chang, Yu-Bin Fang, Shin-Pon Ju, Displays . 2010,第1期

机译：基于分子动力学方法的随机点生成方案用于圆形LED光源导光板的照明设计
4. The Generation of Random Non-overlapping Dot Patterns for Light Guides Using Molecular Dynamics Simulations with Variable r-cut and Reflective Boundary Techniques [C] . Jee-Gong Chang, Chuan Chen, Shin-Pon Ju, Nonimaging Optics and Efficient Illumination Systems IV; Proceedings of SPIE-The International Society for Optical Engineering; vol.6670 . 2007

机译：使用可变r切口和反射边界技术的分子动力学模拟为光导生成随机的非重叠圆点图案
5. Development of novel computational techniques for the study of biomolecular systems using molecular dynamics simulation. [D] . Mirjalili, Vahid. 2014

机译：利用分子动力学模拟研究生物分子系统的新型计算技术。
6. Light activation of rhodopsin: insights from molecular dynamics simulations guided by solid-state NMR distance restraints [O] . Viktor Hornak, Shivani Ahuja, Markus Eilers, -1

机译：洛越蛋白的光激活：由固态NMR距离限制引导的分子动力学模拟的见解
7. Dot pattern generation technique using molecular dynamics [O] . T. Idé, H. Mizuta, H. Numata, 2008

机译：使用分子动力学的点图案生成技术

Generation of random non-overlapping dot patterns for light guides using molecular dynamics simulations with variable r-cut and reflective boundary techniques

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