On-orbit calibration analysis of FY-4A AGRI solar bands

Asia-Pacific Remote Sensing Pub Date : 2018-10-23 DOI:10.1117/12.2324288

Ling Sun, Boyang Chen, Yan Zhang, Ling Gao, Min Min, Q. Guo, Zhiqing Zhang

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引用次数: 3

Abstract

FengYun-4A (FY-4A) is the first three-axis stabilized geostationary meteorological satellite in China, which was launched in the early morning of 11 Dec., 2016. Advanced Geosynchronous Radiation Imager (AGRI) is one of the four payloads onboard FY-4A, and acquired the first image on 20 Feb., 2017. FY-4A AGRI contains 14 spectral bands, in which 6 bands are in reflective solar region, with the nominal wavelengths at 0.47, 0.65, 0.825, 1.375, 1.61 and 2.25μm. The spatial resolution is 0.5 km for 0.65 μm band, 2 km for the shortwave infrared bands and 1 km for others. AGRI is designed with a solar diffuser, however it revealed the insufficient capacity for in-flight calibration mainly due to the partial aperture effect. The first vicarious calibration field campaign was conducted at the Dunhuang site of China Radiometric Calibration Site (CRCS) in Apr. 2017. It revealed the large bias of the AGRI data calibrated using the prelaunch calibration parameters, mostly underestimated. Using multiple land sites in Asia and Oceania, the calibration correction factors were derived combined with the CRCS data. The sensor's on-orbit radiometric response variation and observation bias against the simulated radiation were also monitored. It revealed that the bands at 0.65 μm was most stable, while 0.47 μm band showed the large degradation with an annual rate nearly 17%. In this paper, the calibration status of the FY-4A AGRI solar bands was presented.

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FY-4A AGRI太阳波段在轨定标分析

风云- 4a (FY-4A)是中国第一颗三轴稳定地球同步气象卫星，于2016年12月11日凌晨发射。先进地球同步辐射成像仪(AGRI)是FY-4A上的四个有效载荷之一，并于2017年2月20日获得了第一张图像。FY-4A AGRI共包含14个光谱波段，其中6个波段位于太阳反射区，标称波长分别为0.47、0.65、0.825、1.375、1.61和2.25μm。0.65 μm波段的空间分辨率为0.5 km，短波红外波段为2 km，其他波段为1 km。AGRI设计了一个太阳扩散器，但主要由于部分孔径效应而暴露出飞行校准能力不足的问题。2017年4月，在中国辐射定标站敦煌站点进行了第一次替代性定标现场活动。结果表明，使用发射前校准参数校准的AGRI数据偏差较大，且大多被低估。利用亚洲和大洋洲的多个陆地站点，结合CRCS数据推导了定标校正因子。监测了传感器的在轨辐射响应变化和对模拟辐射的观测偏差。结果表明，0.65 μm波段最稳定，0.47 μm波段衰减较大，年衰减率接近17%。介绍了FY-4A AGRI太阳波段的定标现状。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Asia-Pacific Remote Sensing

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