A reverse distance optical system based on an aspheric surface

Li Min Zhang; Zhuang Zhuang Zhang; Ying Chun Li; Jiang Bo Sun; Zeng Lu Wang; Fei Liu

doi:10.1117/12.2682578

1 June 2023 A reverse distance optical system based on an aspheric surface

Li Min Zhang, Zhuang Zhuang Zhang, Ying Chun Li, Jiang Bo Sun, Zeng Lu Wang, Fei Liu

Proceedings Volume 12710, International Conference on Remote Sensing, Surveying, and Mapping (RSSM 2023); 1271008 (2023) https://doi.org/10.1117/12.2682578
Event: International Conference on Remote Sensing, Surveying, and Mapping (RSSM 2023), 2023, Changsha, China

Abstract

Recent years have seen an increase in the scope of applications for airborne cameras as well as a diversification in their design. One of the most important steps in airborne camera imaging is the design of the optical system, which has a wide range of requirements. This paper describes the design of an anti-telepresence aspheric optical system that allows for a greater working distance. Optimize the optical system design to reduce the effects of factors such as aberration and distortion, resulting in a better imaging optical system.

Citation Download Citation

Li Min Zhang, Zhuang Zhuang Zhang, Ying Chun Li, Jiang Bo Sun, Zeng Lu Wang, and Fei Liu "A reverse distance optical system based on an aspheric surface", Proc. SPIE 12710, International Conference on Remote Sensing, Surveying, and Mapping (RSSM 2023), 1271008 (1 June 2023); https://doi.org/10.1117/12.2682578

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