The purpose of this study is to comprehensively quantify the spatial-temporal patterns of surface urban heat island (SUHI) by investigating the relationship between Land surface temperature (LST) and the land-cover types and associated landscape components in the case of Beijing, China. The spatial and temporal adaptive reflectance fusion model (STARFM) developed by Gao et al. was employed to create the high spatial resolution LST time series, using LST data from the MODIS/Terra and LANDSAT 8 over the period from May to November in 2013. This paper also investigated the application of the Chinese new high spatial resolution satellite GaoFen-1 in urban thermal environments studies which were insufficiently studied previously. The impacts of ...
Land surface temperature (LST) is a fundamental Earth parameter, on both regional and global scales....
Previous time series methods have difficulties in simultaneous characterization of seasonal, gradual...
AbstractNowadays, more than 40% of the population lives in Chinese cities. The rapid urbanization pr...
ABSTRACT: The purpose of this study is to comprehensively quantify the spatial-temporal patterns of ...
With the development of urbanization and industrialization, megacities have experienced more severe ...
Urban surface temperature is higher than surrounding regions, which is associated with the differenc...
Understanding how landscape components affect the urban heat islands is crucial for urban ecological...
The urban thermal environment is closely related to landscape patterns and land surface characterist...
Rapid global economic development has resulted in a corresponding intensification of urbanization, w...
The increasing degree of urbanization has continuously aggravated the surface urban heat island (sUH...
Moderate-Resolution Imaging Spectroradiometer (MODIS) global land surface temperature/emissivity (LS...
The paper focused on Spatial and temporal distribution of thermal environment by Land Surface Temper...
The surface urban heat island (SUHI), which represents the difference of land surface temperature (L...
The surface urban heat island (SUHI), which represents the difference of land surface temperature (L...
As the capital of China, Beijing has experienced a continued and rapid urbanization process in the p...
Land surface temperature (LST) is a fundamental Earth parameter, on both regional and global scales....
Previous time series methods have difficulties in simultaneous characterization of seasonal, gradual...
AbstractNowadays, more than 40% of the population lives in Chinese cities. The rapid urbanization pr...
ABSTRACT: The purpose of this study is to comprehensively quantify the spatial-temporal patterns of ...
With the development of urbanization and industrialization, megacities have experienced more severe ...
Urban surface temperature is higher than surrounding regions, which is associated with the differenc...
Understanding how landscape components affect the urban heat islands is crucial for urban ecological...
The urban thermal environment is closely related to landscape patterns and land surface characterist...
Rapid global economic development has resulted in a corresponding intensification of urbanization, w...
The increasing degree of urbanization has continuously aggravated the surface urban heat island (sUH...
Moderate-Resolution Imaging Spectroradiometer (MODIS) global land surface temperature/emissivity (LS...
The paper focused on Spatial and temporal distribution of thermal environment by Land Surface Temper...
The surface urban heat island (SUHI), which represents the difference of land surface temperature (L...
The surface urban heat island (SUHI), which represents the difference of land surface temperature (L...
As the capital of China, Beijing has experienced a continued and rapid urbanization process in the p...
Land surface temperature (LST) is a fundamental Earth parameter, on both regional and global scales....
Previous time series methods have difficulties in simultaneous characterization of seasonal, gradual...
AbstractNowadays, more than 40% of the population lives in Chinese cities. The rapid urbanization pr...