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惯性空间TDI相机长弧段星源主动扫描设计OA北大核心CSTPCD

Design of inertial space TDI camera for long arc active star source scanning

中文摘要英文摘要

为了有效扩大惯性空间观测的幅宽范围和成像信噪比,提出了一种基于星等与光学多参量的映射函数的卫星与载荷姿频协同补偿的TDI相机长弧段星源主动扫描设计方法.首先,基于黑体辐射能量密度公式,构造TDI光学参量与极限探测星等之间的映射函数;然后,采用齐次坐标变换和欧拉轴最优路径规划方法,建立惯性空间卫星恒速机动和载荷动态实时补偿的长弧段星源扫描成像模型,完成动态星源无拖尾高信噪比成像.最后,基于平行实验理论,搭建由TDI相机和动态星源模拟器组成的实验系统,并完成了扫描成像实验和误差分析.实验结果表明,本体坐标系相对惯性坐标系的欧拉角速率为8.5(°)/s时,积分级数为96,TDI相机行频为1 kHz,成像时长10 s,TDI相机成像过程中星图成像信噪比最大值为7.325,扫描区域立体角为5.423 2 rad.惯性空间TDI相机长弧段星源主动扫描可实现对星源高信噪比成像,并大幅拓展了成像观测范围.

To effectively enhance the bandwidth range and imaging signal-to-noise ratio for inertial space observation,we propose a design method for the active scanning of long arc star sources using TDI camer-as,based on the mapping function of star magnitude and optical multi-parameters.First,we construct a mapping function between TDI optical parameters and the limit detection star magnitude,grounded in the blackbody radiation energy density formula.Next,employing homogeneous coordinate transformation and the Euler axis optimal path planning method,we establish an imaging model for dynamic star source scan-ning with continuous compensation of inertial space satellites and payload.This achieves high signal-to-noise ratio imaging of dynamic star sources without tailing.Finally,leveraging the theory of parallel experi-ments,we build an experimental system consisting of a TDI camera and a dynamic star source simulator,conducting scanning imaging experiments and error analysis.Experimental results indicate that when the Euler angular rate of the body coordinate system relative to the inertial coordinate system is 8.5(°)/s,the integration series is 96,the row frequency of the TDI camera is 1 kHz,and the imaging duration is 10 s,the imaging signal-to-noise ratio of the star map reaches a maximum of 7.325,and the solid angle of the scanning area is 5.423 2.The active scanning of long arc star sources by the inertial space TDI camera can achieve high signal-to-noise ratio imaging of star sources and significantly expand the observation range of imaging.

闫安东;付宗强;曾疏桐;常琳;杨秀彬

中国科学院 长春光学精密机械与物理研究所,吉林 长春 130033||中国科学院大学,北京 100039||中国科学院 天基动态快速光学成像技术重点实验室,吉林 长春 130033山东大学 物理学院,山东 济南 250100中国科学院 长春光学精密机械与物理研究所,吉林 长春 130033||中国科学院 天基动态快速光学成像技术重点实验室,吉林 长春 130033

计算机与自动化

空间遥感TDI相机信噪比长弧段欧拉轴主动扫描

space remote sensingTDI camerasignal-to-noise ratiolong arc segmentEuler axisac-tive scanning

《光学精密工程》 2024 (011)

1686-1700 / 15

吉林省自然科学基金资助项目(No.20210101099JC)

10.37188/OPE.20243211.1686

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