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Gap-Filling Satellite Land Surface Temperature Over Heatwave Periods With Machine Learning

Isaac Buo, Valentina Sagris, Jaak Jaagus

2021IEEE Geoscience and Remote Sensing Letters28 citationsDOI

Abstract

The frequency of heatwave events has increased in recent decades because of global warming. Satellite observed land surface temperature (LST) is a widely used parameter for assessing heatwaves. It provides a wide spatial coverage compared to surface air temperature measured at weather stations. However, LST quality is limited by cloud contamination. Because heatwaves have a limited temporal frame, having a full and cloud-free complement of LST for that period is necessary. In this letter, we explore gap filling of LST using spatial features such as land cover, elevation, and vegetation indices in a machine learning approach. We use a seamless open and free daily vegetation index product that is paramount to the success of our study. We create a random forest model that provides a ranking of features relevant for predicting LST. We compare the output of our model to an established spatiotemporal gap-filling algorithm to validate the predictive capability of our model. This study validates machine learning as a suitable tool for filling gaps in satellite LST. In addition, we acknowledge that while time is an important factor in predicting LST, additional information on vegetation can improve the predictions of a model.

Topics & Concepts

Environmental scienceVegetation (pathology)SatelliteNormalized Difference Vegetation IndexMeteorologyElevation (ballistics)Remote sensingClimate changeLand coverSea surface temperatureMachine learningComputer scienceClimatologyLand useGeologyGeographyEngineeringGeometryMathematicsOceanographyAerospace engineeringMedicinePathologyCivil engineeringUrban Heat Island MitigationRemote Sensing in AgricultureLand Use and Ecosystem Services
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