Open AccessCharacterization of Multispectral Satellite Image for Land Surface Temperature Interpretation
Author(s) -
Annisa Kurnia Shalihat,
Yogie Ardiwinata
Publication year - 2019
Publication title -
international journal of engineering and advanced technology
Language(s) - English
Resource type - Journals
ISSN - 2249-8958
DOI - 10.35940/ijeat.a2682.109119
Subject(s) - vegetation (pathology) , human settlement , remote sensing , satellite , multispectral image , environmental science , land use , population , identification (biology) , climate change , global warming , satellite imagery , urban heat island , meteorology , geography , climatology , geology , civil engineering , medicine , oceanography , demography , botany , archaeology , pathology , aerospace engineering , sociology , engineering , biology
The increase in population is of course also accompanied by the development process. Conversion of land use from the vegetation area to non-vegetation, such as settlements for example will affect the surface temperature in the area. In addition, it will directly or indirectly affect the occurrence of global warming. Information about soil surface temperature needs to be known. Given that SPT as a factor that affects global climate change. To avoid urban heat, information about SPT is needed. Whereas in this study an identification process was carried out by utilizing thermal waves (thermal bands) found in Lands at 8. The identification process was carried out by the conversion method Algorithms produced from bands 10 and bands on lands at satellite images 8. The results of the research were high category was interpreted at most in the 2016 recording year with the majority distribution in urban areas, namely Kemuning District, IlirTimur I District and Bukit Kecil District.