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An adaptive synchronous extraction (ASE) method for estimating intensity and footprint of surface urban heat islands: A case study of 254 North American cities

Qiquan Yang, Yi Xu, Xiaohua Tong, Xin Huang, Yue Liu, TC Chakraborty, Changjiang Xiao, Ting Hu

2023Remote Sensing of Environment31 citationsDOIOpen Access PDF

Topics & Concepts

FootprintEnvironmental scienceIntensity (physics)EstimationExtraction (chemistry)Selection (genetic algorithm)Remote sensingUrban heat islandEcological footprintComputer scienceMeteorologyGeographySustainabilityArtificial intelligenceManagementArchaeologyChemistryPhysicsEconomicsBiologyChromatographyEcologyQuantum mechanicsUrban Heat Island MitigationRemote Sensing and Land UseLand Use and Ecosystem Services
An adaptive synchronous extraction (ASE) method for estimating intensity and footprint of surface urban heat islands: A case study of 254 North American cities | Litcius