The Design of GECAM Scientific Ground Segment
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Published:2024-09-04
Issue:10
Volume:24
Page:104001
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ISSN:1674-4527
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Container-title:Research in Astronomy and Astrophysics
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language:
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Short-container-title:Res. Astron. Astrophys.
Author:
Zheng ShijieORCID, Song LimingORCID, Ma Xiang, Wang Ping, Qiao RuiORCID, Huang YueORCID, Zhao Xiaoyun, Zhang Hongmei, Li Xiaobo, Ge Mingyu, Chen Gang, Sun Gongxing, Peng Wenxi, Cai Ce, Chen Wei, Du Yanqi, Guo Dongya, Li Bing, Li Chaoyang, Li Jianhui, Li Qingxin, Liang Jing, Liu Jiacong, Ou Ge, Shi Dongli, Shi Jingyan, Song Xinying, Wang Jin, Wang Wenshuai, Wu Hong, Xiao Shuo, Xue Wangchen, Yao Min, Ye Jianying, Zhang Kai, Zhang Peng, Zhang Xiaolu, Zhang Yanqiu, Zhao Guoying, Zhao Shiyi, Zheng Chao, Xiong Shaolin
Abstract
Abstract
The Gravitational wave burst high-energy Electromagnetic Counterpart All-sky Monitor (GECAM) is a dedicated mission for monitoring high-energy transients. Here we report the design of the GECAM Scientific Ground Segment (GSGS) in terms of the scientific requirements, including the architecture, the external interfaces, the main function, and workflow. Judging from the analysis and verification results during the commissioning phase, the GSGS functions well and is able to monitor the status of the payloads, adjust the parameters, develop the scientific observation plans, generate the scientific data products, analyze the data, etc. Thus, the on-orbit operation and scientific researches of GECAM are guaranteed.
Cited by
1 articles.
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1. The GECAM Real-time Burst Alert System;Research in Astronomy and Astrophysics;2024-09-04
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