Research progress in deep learning based WFSless adaptive optics system

Q4 Engineering
Zhang Zhiguang, Yang Huizhen, Liu Jinlong, Li Songheng, S. Hang, Luo Yuxiang, Wei Xiewen
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引用次数: 1

Abstract

In recent years, Adaptive Optics (AO) system is developing towards miniaturization and low cost. Because of its simple structure and wide application range, wavefront sensorless (WFSless) AO system has become a research hotspot in related fields. Under the condition that the hardware environment is determined, the system control algorithm determines the correction effect and convergence speed of WFSless AO system. The emerging deep learning and artificial neural network have injected new vitality into the control algorithms of WFSless AO system, and further promoted the theoretical and practical development of WFSless AO. On the basis of summarizing the previous control algorithms of WFSless AO system, the applications of convolution neural network (CNN), long-term memory neural network (LSTM) and deep reinforcement learning in WFSless AO system control in recent years are comprehensively introduced, and characteristics of various deep learning models in WFSless AO system are summarized. Applications of WFSless AO system in astronomical observation, microscopy, ophthalmoscopy, laser telecommunication and other fields are outlined.
基于深度学习的WFSless自适应光学系统研究进展
近年来,自适应光学系统正朝着小型化和低成本的方向发展。波阵面无传感器AO系统由于其结构简单、应用范围广,已成为相关领域的研究热点。在硬件环境确定的情况下,系统控制算法决定了WFSless AO系统的校正效果和收敛速度。新兴的深度学习和人工神经网络为WFSless AO系统的控制算法注入了新的活力,进一步推动了WFSless A0的理论和实践发展,全面介绍了近年来WFSless AO系统控制中的长期记忆神经网络(LSTM)和深度强化学习,总结了WFSless系统中各种深度学习模型的特点。概述了WFSless AO系统在天文观测、显微镜、检眼镜、激光通讯等领域的应用。
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来源期刊
强激光与粒子束
强激光与粒子束 Engineering-Electrical and Electronic Engineering
CiteScore
0.90
自引率
0.00%
发文量
11289
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