Retrieval of urban land surface component temperature using multi-source remote-sensing data
来源期刊:中南大学学报(英文版)2013年第9期
论文作者:ZHENG Wen-wu(郑文武) ZENG Yong-nian(曾永年)
文章页码:2489 - 2497
Key words:component temperature; urban thermal environment; multi-source remote sensing; thermal infrared remote sensing
Abstract: The components of urban surface cover are diversified, and component temperature has greater physical significance and application values in the studies on urban thermal environment. Although the multi-angle retrieval algorithm of component temperature has been matured gradually, its application in the studies on urban thermal environment is restricted due to the difficulty in acquiring urban-scale multi-angle thermal infrared data. Therefore, based on the existing multi-source multi-band remote sensing data, access to appropriate urban-scale component temperature is an urgent issue to be solved in current studies on urban thermal infrared remote sensing. Then, a retrieval algorithm of urban component temperature by multi-source multi-band remote sensing data on the basis of MODIS and Landsat TM images was proposed with expectations achieved in this work, which was finally validated by the experiment on urban images of Changsha, China. The results show that: 1) Mean temperatures of impervious surface components and vegetation components are the maximum and minimum, respectively, which are in accordance with the distribution laws of actual surface temperature; 2) High-accuracy retrieval results are obtained in vegetation component temperature. Moreover, through a contrast between retrieval results and measured data, it is found that the retrieval temperature of impervious surface component has the maximum deviation from measured temperature and its deviation is greater than 1 ℃, while the deviation in vegetation component temperature is relatively low at 0.5 °C.
ZHENG Wen-wu(郑文武)1, 2, ZENG Yong-nian(曾永年)1
(1. Spatial Information Technology and Sustainable Development Research Center, School of Geoscience and Info-Physics, Central South University, Changsha 410083, China;
2. School of Resource Environment and Tourism Management, Hengyang Normal University,
Hengyang 421008, China)
Abstract:The components of urban surface cover are diversified, and component temperature has greater physical significance and application values in the studies on urban thermal environment. Although the multi-angle retrieval algorithm of component temperature has been matured gradually, its application in the studies on urban thermal environment is restricted due to the difficulty in acquiring urban-scale multi-angle thermal infrared data. Therefore, based on the existing multi-source multi-band remote sensing data, access to appropriate urban-scale component temperature is an urgent issue to be solved in current studies on urban thermal infrared remote sensing. Then, a retrieval algorithm of urban component temperature by multi-source multi-band remote sensing data on the basis of MODIS and Landsat TM images was proposed with expectations achieved in this work, which was finally validated by the experiment on urban images of Changsha, China. The results show that: 1) Mean temperatures of impervious surface components and vegetation components are the maximum and minimum, respectively, which are in accordance with the distribution laws of actual surface temperature; 2) High-accuracy retrieval results are obtained in vegetation component temperature. Moreover, through a contrast between retrieval results and measured data, it is found that the retrieval temperature of impervious surface component has the maximum deviation from measured temperature and its deviation is greater than 1 ℃, while the deviation in vegetation component temperature is relatively low at 0.5 °C.
Key words:component temperature; urban thermal environment; multi-source remote sensing; thermal infrared remote sensing
