Zoom lens with high zoom ratio design based on Gaussian bracket and particle swarm optimization

Fan Chengxiang; Yang Bo; Liu Yunpeng; Gu Pengxiang; Wang Xingqi; Zong Hui

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Zoom lens with high zoom ratio design based on Gaussian bracket and particle swarm optimization

机译：基于高斯支架和粒子群优化的高缩放比设计变焦镜头

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In this paper, we use Gaussian brackets and a particle swarm optimization (PSO) algorithm to design a 20 x four-group zoom lens with a focus tunable lens and two moving groups. This method uses Gaussian brackets to derive the paraxial design equations of the zoom lens and determine the lens parameters. In the optimization stage, we define an objective function as a performance indicator to optimize its first-order design and implement the PSO algorithm in MATLAB to find its global optimal first-order design. The optimized 20 x zoom lens has a focal length of 4.5-90 mm and a total length of 145 mm. This method solves the difficulty of solving the initial structure of the zoom. Compared with traditional trial and error, the calculation speed is faster, the accuracy is higher, and it does not rely on the initial value. The results show that this method is suitable for the first-order design of complex optical systems. (C) 2021 Optical Society of America

机译：在本文中，我们使用高斯括号和粒子群优化（PSO）算法设计了一个20 x四组变焦镜头，其中包括一个焦距可调镜头和两个移动组。该方法使用高斯括号推导变焦透镜的近轴设计方程，并确定透镜参数。在优化阶段，我们定义了一个目标函数作为一个性能指标来优化其一阶设计，并在MATLAB中实现了PSO算法来寻找其全局最优一阶设计。优化的20倍变焦镜头焦距为4.5-90毫米，总长度为145毫米。该方法解决了求解缩放初始结构的困难。与传统的试错法相比，计算速度更快，精度更高，且不依赖于初始值。结果表明，该方法适用于复杂光学系统的一阶设计。（2021）美国光学学会

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《Applied optics》 |2021年第11期|共7页
作者
Fan Chengxiang; Yang Bo; Liu Yunpeng; Gu Pengxiang; Wang Xingqi; Zong Hui;
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Univ Shanghai Sci &

Technol Shanghai Key Lab Modern Opt Syst Minist Educ Shanghai 200093 Peoples R China;

Univ Shanghai Sci &

Technol Shanghai Key Lab Modern Opt Syst Minist Educ Shanghai 200093 Peoples R China;

Univ Shanghai Sci &

Technol Shanghai Key Lab Modern Opt Syst Minist Educ Shanghai 200093 Peoples R China;

Univ Shanghai Sci &

Technol Shanghai Key Lab Modern Opt Syst Minist Educ Shanghai 200093 Peoples R China;

Univ Shanghai Sci &

Technol Shanghai Key Lab Modern Opt Syst Minist Educ Shanghai 200093 Peoples R China;

Univ Shanghai Sci &

Technol Shanghai Key Lab Modern Opt Syst Minist Educ Shanghai 200093 Peoples R China;

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5. Automatically retrieving an initial design of a double-sided telecentric zoom lens based on a particle swarm optimization [J] . Fan Zichao, Wei Shili, Zhu Zhengbo, Applied optics . 2019,第27期

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8. Optical Design Method for High Zoom Ratio Lens with Liquid Lens and Digital Signal Processing [C] . Chao-Chang Hu, Yi Chin Fang, Han-Ching Lin, Current Developments in Lens Design and Optical Engineering VIII; Proceedings of SPIE-The International Society for Optical Engineering; vol.6667 . 2007

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机译：专为Cygnus X射线源设计的远心变焦镜头

Zoom lens with high zoom ratio design based on Gaussian bracket and particle swarm optimization

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