Optical design of off-axis three-mirror reflective system by neural networks

Wan-qing Huang, Xibo Sun, Yu Xie, Yuanchao Geng, Lan-qin Liu, Wen-yi Wang, Ying Zhang
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Abstract

We incorporate neural networks into the optical design of off-axis three-mirror reflective system, enabling us to achieve design outcomes without relying on iteration or ray tracing methods. Our approach involves combining analytical relations with neural networks during the design process, which yields results covering the entire parameter space with a single user input, and each design is scored simultaneously. Our results demonstrate that neural networks can simulate the complex relationship between performance requirements and structural parameters of an optical system. As such, the structural parameters can be directly obtained from the performance requirements, replacing the iterative optimization process traditionally used. This approach leads to relatively efficient and straightforward optical design. We anticipate that this method can be extended to various optical systems, reducing the experience threshold and difficulty of optical design.
离轴三镜反射系统的神经网络光学设计
我们将神经网络纳入离轴三镜反射系统的光学设计中,使我们能够在不依赖迭代或光线追踪方法的情况下实现设计结果。我们的方法包括在设计过程中将分析关系与神经网络相结合,从而产生包含单个用户输入的整个参数空间的结果,并同时对每个设计进行评分。结果表明,神经网络可以模拟光学系统性能要求与结构参数之间的复杂关系。因此,可以直接从性能需求中获得结构参数,取代了传统的迭代优化过程。这种方法导致相对高效和直接的光学设计。我们期望这种方法可以推广到各种光学系统,降低光学设计的经验门槛和难度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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