这种光存储包含信息编码、光栅元阵列形成及解码过程。
The optical storage process consists of information coding, grating unit matrix building and decoding.
将二元光学方法与环形光栅的概念结合起来,为制作可以集成到光电系统的环形光栅以及其他光学元件提供了一条较好的思路。
Combining binary optics methods with the notion of circular grating, it offers a good thinking for circular grating and other optic elements that can be assembled into photoelectricity system.
以普通光栅显示器为基础,研究了余辉模型、图形元变换模型等软模拟的关键实现技术。
Based on common raster display, some key techniques for the software simulation method, such as afterglow model and meta-graph switch model, are discussed in detail.
到达这一阶段的图元依次被光栅化,得到的结果就是若干片段(片元) 。
Primitives that reach this stage are then rasterized in the order in which they were given. The result of rasterizing a primitive is a sequence of Fragments.
最后,光纤光栅振动传感系统和传统压电陶瓷传感系统的实验结果还得到了有限元计算结果的验证。
Finally, the experiment results gained from the FBG sensor system and traditional PZT sensor are both validated by Finite Element Analysis (FEA) calculation.
为了解抉这个问题,介绍了一种将遗传算法与模拟退火算法相结合的混合遗传算法,并具体地利用这一优化算法设计了一种常用的二元光学元件——达曼光栅。
In order to solve this problem, a new method is provided based on the Hybrid Genetic Algorithms, and using a emulation program design a common binary optics elements-Dammann Grating.
详细地介绍了一种可用于分析大口径大视场二元光学系统的光栅矢量分析法BKK方法。
A rigorous vector grating analysis approach BKK approach, which can be used to analyze the big caliber and big view binary optical system, is introduced.
本文通过计算机编程控制栅指电压,使液晶相控阵形成类似二元光栅的相位分布,实现对入射光的偏转。
Here deflecting a beam is accomplished by forming phase distribution that similar to binary grating phase's through modulating applied voltages.
为了增强点阵光栅全息图的闪耀效果和获得奇妙的动态视觉效果,作者在实验中采用了两项特有的单元技术,即光斑整形和像元移位。
Two unique techniques, spot shaping and pixel shifting, are adopted for improving sparkling and kinetic visual effects of dot matrix hologram in our experiments.
本文介绍用化学蚀刻的方法制作二维二元位相光栅。
In this paper, a generated method of 2-d binary phase grating by chemistry etching is presented.
进行现场实验,根据有限元分析,多通道光纤光栅传感阵列设计安装在沉井的合适位置。
A field test site was established, multi-channel FBG sensor arrays were also constructed to fit the caisson and its specific location was determined by finite element method.
进行现场实验,根据有限元分析,多通道光纤光栅传感阵列设计安装在沉井的合适位置。
A field test site was established, multi-channel FBG sensor arrays were also constructed to fit the caisson and its specific location was determined by finite element method.
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