1.
Research on Theory and Experiment System of Two-dimensional Zero-reference Gratings;
二维零位光栅原理及其实验系统研究
2.
Study of the Polarization Selective Phase Grating Based on Two-dimensional Sawtooth Thin Film Photonic Crystals
基于二维“锯齿状”薄膜光子晶体的偏振选择相位光栅的研究
3.
Single-Step Exposure for Two-Dimensional Tunable Liquid Crystal Grating
一次曝光法制备二维可调谐液晶光栅
4.
Optical Scattering Analysis of the Aberration of the Diffracted Wave of Two-dimensioned Reflection Grating
二维反射光栅衍射畸变的光散射方法研究
5.
Two-Dimensional Electrically-Tunable Diffraction Grating Prepared by Single-Step Exposure Method
一次曝光法制备二维电调谐聚合物液晶光栅
6.
Two dimension value simulation investigation of a fiber-optic Bragg grating flow sensor
一种光纤Bragg光栅流量传感器二维数值模拟研究
7.
Research on Precise 2-D Plane Grating Measurement System and Key Technology;
高精度二维平面光栅测量系统及关键技术研究
8.
Fabrication and characteristic analysis of two-dimensional anti-reflective subwavelength periodic gratings
二维亚波长抗反射光栅的制作及其特性分析
9.
The design of 3D body measurement system by fringe-phase method
采用光栅相位法的三维人体测量系统设计
10.
Group-theoretic Approach to the Theory of Crossed Gratings and its Application to the Fourier Modal Method;
群论在二维光栅理论及其傅立叶模态法中的应用
11.
Grating Signal Singularity Detection in Intense Noise with Wavelet Two-dimensional Reconstruction
基于小波二维重建的强噪声光栅信号奇异点检测
12.
long grating linear movement sensor
长光栅线性位移传感器
13.
Research and Implementation on Digital Image Processing and Phase Measurement in 3-D Grating Projection System;
光栅三维扫描系统中图像处理和相位法的研究与实现
14.
A Measurement System for the 3-Dimensional Object Surface Based on Projected Grating Phase Method;
基于投影光栅相位法的三维物体表面轮廓测量系统的研究
15.
Production and Application of Amplitude and Phase Gratings for High Temperature;
高温振幅型光栅和位相型光栅的研制及应用
16.
Two-Dimensional Micro-Angular Displacement Measurement Based on Fiber Arrays
基于光纤阵列的二维微角位移传感器
17.
A brief discussion about several calculating methods for the displacement sensor based on variable period grating
浅评变栅距光栅位移传感器几种位移解算方案
18.
The raster stripes are encoded in 7 digit binary codes obtained by bisection and the phase shifting is performed by a sine function of 8 step shifting in π/4 interval.
光栅投影条纹采用逐步二分的二进制7位码编码,相移采用间隔π48步相移的正弦相移技术。