A wavefront reconstruction parallel computing based on the GPU is introduced in this paper.
研究了图形处理器(GPU)计算液晶自适应波前重构的并行性。
The numerical simulation process of wavefront reconstruction with this shear interferometer is given.
最后用数值方法模拟了波前恢复过程。
In this paper a theoretical analysis of wavefront reconstruction and far field parameter estimation are presented.
本文将介绍波前重构的理论分析和远场特征评估。
The numerical experiments show that the ordinal wavefront reconstruction method has higher calculation precision and running efficiency.
数值实验表明有序波前重建法具有较高的计算精度和运行效率。
Thus, via the theoretical simulation and experimental result the possibility of wavefront reconstruction using the anti-calculation of Collins formula is proved.
最后,通过理论模拟及实验研究证明了使用柯林斯公式的逆运算重构波面的可能性。
In adaptive optics system, wavefront computation refers to a class of processing consisting of wavefront slope computation, wavefront reconstruction and wavefront control algorithm.
在自适应光学系统中,波前计算是指由波前斜率计算、波前复原运算以及波前控制算法等组成的一类处理任务。
The results show that both the wavefront reconstruction algorithm and the optical system are able to exactly test the optics surface. And the repeatability of the setup is analyzed.
结果表明,文中提出的波前重建算法和采用的光路系统可用于实际光学元件面形的准确检测,系统的重复性也得到了研究。
Zonal wavefront reconstructing model is adopted, the least squares solution is applied, and the condition number of wavefront reconstruction matrix is used to estimate how its morbidity is.
用直接斜率法进行波前重构,采用最小二乘解,并用波前重构矩阵的条件数作为其病态程度的判据。
The detection and reconstruction of wavefront by Lateral Shear Interferometer (LSI) and Hartmann Wavefront Sensor (HWS) have been deduced analogically and simulated numerically.
对横向剪切干涉仪和哈特曼波前传感器的波前探测和复原进行了类比推导和仿真计算。
The detection and reconstruction of wavefront by Lateral Shear Interferometer (LSI) and Hartmann Wavefront Sensor (HWS) have been deduced analogically and simulated numerically.
对横向剪切干涉仪和哈特曼波前传感器的波前探测和复原进行了类比推导和仿真计算。
应用推荐