Tracking VIRS/TRMM on-orbit calibration with MODIS

SPIE Optics + Photonics Pub Date : 2006-09-27 DOI:10.1117/12.681138

A. Wu, C. Lyu, X. Xiong, W. Barnes

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Abstract

The Visible and Infrared Scanner (VIRS) aboard the Tropical Rainfall Measuring Mission (TRMM), launched on 28 November 1997, has two reflected solar bands and three thermal infrared bands. The solar bands are calibrated using an onboard solar diffuser (SD) and the thermal bands are calibrated using an onboard blackbody (BB). Since launch, VIRS has provided more than eight years of on-orbit observations. The five VIRS bands have a close spectral match with corresponding Moderate Resolution Imaging Spectroradiometer (MODIS) bands. MODIS was launched on 18 December 1999 and 4 May 2002 aboard the NASA EOS Terra and Aqua spacecrafts, respectively. In this study, six years of VIRS and MODIS overlapping data are used to examine VIRS long-term calibration stability and consistency. This is particularly useful for the VIRS solar band calibration due to a lack of capability to track the on-orbit SD degradation. To reduce impacts due to scene variations, measurements from simultaneous nadir overpasses (SNOs) for VIRS and MODIS are co-located and aggregated to 30-by-30km areas for inter-comparison. Results show that the VIRS thermal bands maintain a stable calibration. For the two VIRS solar bands at 0.62μm and 1.62μm, the calibrated reflectance values gradually drift higher over the six-year period. The 0.62μm band increases at a rate of 1.1%/yr over the period, compared to an increase of 0.4%/yr for the 1.62μm band.

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利用MODIS跟踪VIRS/TRMM在轨标定

热带雨量测量任务(TRMM)于一九九七年十一月二十八日发射的可见光及红外线扫描器(VIRS)，有两个反射太阳波段和三个热红外线波段。太阳波段使用机载太阳扩散器(SD)校准，热波段使用机载黑体(BB)校准。自发射以来，VIRS已经提供了8年多的在轨观测。这5个VIRS波段与相应的中分辨率成像光谱仪(MODIS)波段具有很好的光谱匹配。MODIS分别于1999年12月18日和2002年5月4日由美国宇航局EOS Terra和Aqua航天器发射。本研究利用6年的VIRS和MODIS重叠数据来检验VIRS长期校准的稳定性和一致性。由于缺乏跟踪在轨SD退化的能力，这对于VIRS太阳波段校准特别有用。为了减少因场景变化而产生的影响，从同步最低值立交桥(SNOs)获得的VIRS和MODIS的测量数据被集中到30 × 30公里的区域，以便相互比较。结果表明，VIRS热带保持了稳定的定标。对于0.62μm和1.62μm两个VIRS太阳波段，校正后的反射率值在6年内逐渐升高。在此期间，0.62μm波段的增幅为1.1%/年，而1.62μm波段的增幅为0.4%/年。

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SPIE Optics + Photonics

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