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Retrieval of Surface Temperature and Emissivity From Ground-Based Time-Series Thermal Infrared Data
IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing ( IF 4.7 ) Pub Date : 2020-01-01 , DOI: 10.1109/jstars.2019.2959794 Yonggang Qian , Ning Wang , Kun Li , Hua Wu , Sibo Duan , Yaokai Liu , Lingling Ma , Caixia Gao , Shi Qiu , Lingli Tang , Chuanrong Li
IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing ( IF 4.7 ) Pub Date : 2020-01-01 , DOI: 10.1109/jstars.2019.2959794 Yonggang Qian , Ning Wang , Kun Li , Hua Wu , Sibo Duan , Yaokai Liu , Lingling Ma , Caixia Gao , Shi Qiu , Lingli Tang , Chuanrong Li
This article addressed the simultaneous retrieval of land surface temperature (LST) and emissivity (LST&E) from the time-series thermal infrared data. On the basis of the assumption that the time-series LSTs can be described by a piecewise linear function, a new method has been proposed to simultaneously retrieve LST&E from atmospherically corrected time-series thermal infrared data using LST linear constraint. A detailed analysis has been performed against various errors, including error introduced by the method assumption, instrument noise, initial emissivity, atmospheric downwelling radiance error, etc. The proposed method from the simulated data is more immune to noise than the existing methods. Even with a noise equivalent delta temperature of 0.5 K, the root-mean-square error of LST is observed to be only 0.13 K, and that of the land surface emissivity (LSE) is 1.8E-3. In addition, our proposed method is simple and efficient and does not encounter the problem of singular values unlike the existing methods. To validate the proposed method, a field experiment from June to September 2017 was conducted for sand target in Baotou site, China. The results show that the samples have an accuracy of LST within 0.87 K and that the mean values of LSE are accurate to 0.01.
更新日期:2020-01-01
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