optical system design meaning in English
光学系统设计
Examples
- Optical system design for lens with relative aperture of 11
相对孔径为11镜头的光学系统设计 - At last , we implement these algorithms by structuring the mathematic model and programming . we show that the effectiveness of intelligent optimization algorithms in increasing the optical system design ' s intelligentized degree by analyzing the algorithms " effect and efficiency
最后,通过构造数学模型和编程实现了算法,由优化的效果和效率分析来证实智能优化算法是提高光学系统设计智能化程度的有效工具。 - Otf , one of the most objective and effective methods that are proposed to evaluate the imaging quality of the optical system , is extensively used in the process control of the optical system design and the imaging quality evaluation and detection of the optical imaging system
光学传递函数是目前评价光学系统成像质量最客观、最有效的方法之一,广泛地应用于光学系统设计的过程控制和光学成像系统的像质评价与检测中。 - Intelligent optimization algorithms get to broad development by imitating or announcing to some natural phenomenas or processes . this paper brings up the new standpoint aiming at the optics cad system ' s popular lesson , and makes a particular study of intelligent optimization algorithms " application in the optical system design
智能优化算法通过模拟某些自然现象或过程的机理而得到了广泛地发展,本文针对光学cad系统中目前正研究的热门课题提出了新的观点,重点研究了智能优化算法在光学系统设计中的应用。 - First , the current optical system construction ' s optimization algorithms are based on the just optical system ' s preliminary construction which designers have selected . optical system program can not automatically change the optical elements ' nember . so that optical system design ' s intelligentized degree is not high . now this paper applies the genetic algorithms to lens design and shows that the genetic algorithms can effectively work in automatically changing the optical elements ' nember . next , this pape present a new computer design method that applies the genetic - simulated annealing algorithms to directly design the binary optical element
首先,由于现有的光学系统结构设计的优化算法都是在选定了初始光学结构的基础上,只对光学结构参数进行优化选择,在优化过程中不能够自动改变光学面数,导致光学系统设计的智能化程度还不是很高,采用遗传算法,实现了光学面的自动增减;其次,区别于传统的二元光学设计方法,为避免其量化台阶数过大导致的成本及加工复杂度的增加,提出了运用混合优化策略遗传-模拟退火算法直接设计二元光学元件的新的计算机方法。