PREDICTING CHANGES IN LAND USE AND LAND SURFACE TEMPERATURE USING CELLULAR AUTOMATA BASED ALGORITHM

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dc.contributor.author RAHMAN, A N M FOYEZUR
dc.date.accessioned 2021-09-30T07:43:41Z
dc.date.available 2021-09-30T07:43:41Z
dc.date.issued 2020-12
dc.identifier.uri http://dspace.mist.ac.bd:8080/xmlui/handle/123456789/630
dc.description.abstract More than half of the world population lives in Cities, therefore, urbanization has made a significant contribution to the global warming. In rapidly rising Mega-Cities results in a major change in land use and land cover (LULC) and substantial impact in land surface temperature (LST). Abrupt rise of LST has also adversely impacted some of the urban phenomenon. The aim was to analyze the pattern of LULC and LST change in Mirpur and its surrounding area for the last 30 years using Landsat Satellite images and remote sensing indices and develop relationship between LULC types and LST and analyze their impact on local warming. Later prediction of LULC and LST change for next 20 years was carried out using this analyzed data. Landsat-4 & 5 (TM) and Landsat-8 (OLI) images were used to track the relation between the LULC changes and LST from 1989 to 2019 at an interval of five years. The LULC and LST maps were simulated for the year 2039 by Cellular Automata based Artificial Neural Network (CA-ANN) algorithm. Two environmental indices such as Normalized Difference Vegetation Index (NDVI) and Normalized Difference Built-up Index (NDBI) were analyzed to show their interrelationship with LST. Findings of relationship among LST and LULC types signify that built up area increases LST by replacing natural vegetation with non-evaporating surfaces. Increasing trend of average surface temperature has been found and it has been rising gradually for last 30 years. For the year 2019 it was found that approximately 86% area was converted to built up area so far and 89% area had LST more than 28°C. The simulation shows that if the present trend continues, 72% of Mirpur area is likely to experience temperature close to 32°C in the year 2039. Further, LST showed a strong and positive correlation with NDBI and negative correlation with NDVI. The overall accuracy for LULC was over 90% where the result of the Kappa coefficient was 0.83 that was more than 0.75. The study may help urban planners and environmental engineers to understand and recommend effective policy steps and plans for LULC adjustments to reduce its consequences. en_US
dc.language.iso en en_US
dc.publisher DEPARTMENT OF CIVIL ENGINEERING en_US
dc.title PREDICTING CHANGES IN LAND USE AND LAND SURFACE TEMPERATURE USING CELLULAR AUTOMATA BASED ALGORITHM en_US
dc.type Thesis en_US


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