Acquisition of all-weather land surface temperature (LST) with high spatial resolution provides a precondition and groundwork to monitor and evaluate cold disaster continuously.
全天候获取高分辨率的陆面温度(LST)是对寒冷灾害进行全天候监测、评估的前提和基础。
The characteristics of LST in most land of East Asia and that of sea surface temperature(SST) in the south of Taiwan Strait and the Yellow Sea were also analyzed as comparison.
作为比较,东亚部分陆地的地表温度与台湾海峡南部、黄海的海表温度及其日变化、季节变化一并进行了分析。
Urban ground surface has an important effect on the energy exchange between air and land, which leads to an inhomogeneous distribution of land surface temperature (LST).
城市下垫面对地表能量交换的影响巨大,引起地表温度分布的不均一性。
Finally, the land surface temperature (LST) of Shandong peninsula is retrieved using the split window algorithm.
最后运用劈窗算法反演山东半岛地区的地表温度(LST),结果比较合理。
Land surface temperature (LST) is a crucial parameter in indicting thermal energy distribution, the most efficient way to acquire it is through thermal infrared remote sensing images.
区域性的地表温度,是该地区热能量分布的重要参数,通过遥感影像获得是最便捷、最有效的方法。
Land surface temperature (LST) is a key parameter in earth environment, the thermal infrared band that can detect LST plays an important role in spectroscopy.
地表温度是地球环境中的一个关键参数,可探测地表温度的热红外波段在光谱谱段中占有重要位置。
However, when this approach is applied to retrieving land surface temperature (LST), large error can be caused.
但当其用于陆地温度反演时 ,通常产生较大误差。
However, when this approach is applied to retrieving land surface temperature (LST), large error can be caused.
但当其用于陆地温度反演时 ,通常产生较大误差。
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