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Main Authors: Wang, Jianmin, Su, Zhiqian, Li, Bin, Zheng, Weiran, Gao, Haochun
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.08950
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_version_ 1866916893849288704
author Wang, Jianmin
Su, Zhiqian
Li, Bin
Zheng, Weiran
Gao, Haochun
author_facet Wang, Jianmin
Su, Zhiqian
Li, Bin
Zheng, Weiran
Gao, Haochun
contents To meet the urgent need for sub-second link establishment in inter-satellite and satellite-to-ground free space optical communication, this paper presents a periscope-type optical communication terminal and a ground-based verification scheme for its pointing accuracy and acquisition performance, thereby avoiding costly in-orbit tests. This ground-based measurement method takes the positions of stellar constellations in inertial space as its reference. By establishing a theoretical attitude determination model for the optical terminal and analyzing both structural and non-structural error sources that affect its pointing, it proposes an error-compensated, high-precision evaluation technique for open-loop pointing. Combined with laboratory component tests, it also derives a measurement method for acquisition time. Field experiments show that the mean pointing error is reduced from 2070.24 microrad to 120.16 microrad after error correction, corresponding to an improvement exceeding 94%. Acquisition tests report an average equivalent acquisition time of 0.908 s, with every run completed in under 1 s. These results demonstrate that the developed terminal achieves high-precision pointing and sub-second acquisition, and they validate the effectiveness of the proposed ground-based verification method.
format Preprint
id arxiv_https___arxiv_org_abs_2508_08950
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Ground-Based Verification Method for Pointing and Acquisition Performance of Space Optical Communication System with Sub-Second Acquisition Time
Wang, Jianmin
Su, Zhiqian
Li, Bin
Zheng, Weiran
Gao, Haochun
Optics
To meet the urgent need for sub-second link establishment in inter-satellite and satellite-to-ground free space optical communication, this paper presents a periscope-type optical communication terminal and a ground-based verification scheme for its pointing accuracy and acquisition performance, thereby avoiding costly in-orbit tests. This ground-based measurement method takes the positions of stellar constellations in inertial space as its reference. By establishing a theoretical attitude determination model for the optical terminal and analyzing both structural and non-structural error sources that affect its pointing, it proposes an error-compensated, high-precision evaluation technique for open-loop pointing. Combined with laboratory component tests, it also derives a measurement method for acquisition time. Field experiments show that the mean pointing error is reduced from 2070.24 microrad to 120.16 microrad after error correction, corresponding to an improvement exceeding 94%. Acquisition tests report an average equivalent acquisition time of 0.908 s, with every run completed in under 1 s. These results demonstrate that the developed terminal achieves high-precision pointing and sub-second acquisition, and they validate the effectiveness of the proposed ground-based verification method.
title Ground-Based Verification Method for Pointing and Acquisition Performance of Space Optical Communication System with Sub-Second Acquisition Time
topic Optics
url https://arxiv.org/abs/2508.08950