NOAA-20 VIIRS thermal emissive bands on-orbit performance

Asia-Pacific Remote Sensing Pub Date : 2018-10-23 DOI:10.1117/12.2324515

Yonghong Li, X. Xiong, J. Mcintire, A. Angal, S. Gusev, K. Chiang

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引用次数: 4

Abstract

The VIIRS instrument onboard the NOAA-20 satellite (launched on November 18, 2017) started to collect Earth-view data after its nadir door opened on December 13, 2017. Seven of the VIIRS bands, I4-5 and M12-16 are thermal emissive bands (TEBs), covering a spectral range from 3.6 to 12.5 μm. They began collecting valid data after the cold focal plane assembly (CFPA) cooled down to its nominal operating temperature on January 6, 2018. This paper will present the performance of each TEB, including calibration coefficients, noise equivalent differential temperature (NEdT), on-orbit calibration coefficient estimates from scheduled onboard blackbody warm-up and cool-down (WUCD) data, as well as related telemetry temperatures. Several methods are tested and compared in the WUCD data analysis for estimating the calibration coefficients. Based on the preliminary results, the NEdT of each band is well below the design specification and very close to that of the VIIRS onboard the Suomi National Polar-orbiting Partnership (SNPP) satellite. The detector gains appear stable for bands on the short- and mid-wave infrared CFPA, whereas the detector gains have larger than expected degradation for bands on the long-wave infrared CFPA during the early mission. All TEB related telemetry temperatures are stable. The on-orbit performance of NOAA-20 VIIRS TEB is compared with VIIRS onboard the SNPP.

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NOAA-20 VIIRS热辐射波段在轨性能

NOAA-20卫星(2017年11月18日发射)上的VIIRS仪器在2017年12月13日最低点门打开后开始收集地球视图数据。其中I4-5和M12-16为热发射波段，覆盖3.6 ~ 12.5 μm的光谱范围。他们在2018年1月6日冷焦平面组件(CFPA)冷却到标称工作温度后开始收集有效数据。本文将介绍每个TEB的性能，包括校准系数，噪声等效差分温度(NEdT)，根据预定的机载黑体预热和冷却(WUCD)数据估计的在轨校准系数，以及相关的遥测温度。在WUCD数据分析中，对几种估计校准系数的方法进行了测试和比较。根据初步结果，每个频段的NEdT都远低于设计规格，与芬兰国家极轨伙伴关系(SNPP)卫星上的VIIRS的NEdT非常接近。在任务初期，短波和中波红外CFPA波段的探测器增益基本稳定，而长波红外CFPA波段的探测器增益衰减幅度大于预期。所有与TEB相关的遥测温度都是稳定的。将NOAA-20 VIIRS TEB的在轨性能与SNPP上的VIIRS进行了比较。

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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