Land Surface Temperature Retrieval Using Airborne Hyperspectral Scanner Daytime Mid-Infrared Data

Land surface temperature (LST) retrieval is a key issue in infrared quantitative remote sensing. In this paper, a split window algorithm is proposed to estimate LST with daytime data in two mid-infrared channels (channel 66 (3.746~4.084 mu m) and channel 68 (4.418~4.785 mu m)) from Airborne Hyperspe...

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Bibliographic Details
Published in:Remote sensing (Basel, Switzerland) Switzerland), 2014-12, Vol.6 (12), p.12667-12685
Main Authors: Zhao, Enyu, Qian, Yonggang, Gao, Caixia, Huo, Hongyuan, Jiang, Xiaoguang, Kong, Xiangsheng
Format: Article
Language:English
Subjects:
AHS data
Angle of reflection
Channels
Daytime
Error analysis
Land surface temperature
mid-infrared data
Remote sensing
Retrieval
split-window
Uncertainty
Water vapor
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Summary:Land surface temperature (LST) retrieval is a key issue in infrared quantitative remote sensing. In this paper, a split window algorithm is proposed to estimate LST with daytime data in two mid-infrared channels (channel 66 (3.746~4.084 mu m) and channel 68 (4.418~4.785 mu m)) from Airborne Hyperspectral Scanner (AHS). The estimation is conducted after eliminating reflected direct solar radiance with the aid of water vapor content (WVC), the view zenith angle (VZA), and the solar zenith angle (SZA). The results demonstrate that the LST can be well estimated with a root mean square error (RMSE) less than 1.0 K. Furthermore, an error analysis for the proposed method is also performed in terms of the uncertainty of LSE and WVC, as well as the Noise Equivalent Difference Temperature (NE Delta T). The results show that the LST errors caused by a LSE uncertainty of 0.01, a NE Delta T of 0.33 K, and a WVC uncertainty of 10% are 0.4~2.8 K, 0.6 K, and 0.2 K, respectively. Finally, the proposed method is applied to the AHS data of 4 July 2008. The results show that the differences between the estimated and the ground measured LST for water, bare soil and vegetation areas are approximately 0.7 K, 0.9 K and 2.3K, respectively.
ISSN:2072-4292
2072-4292
DOI:10.3390/rs61212667