Litcius/Paper detail

Interpolation, Satellite-Based Machine Learning, or Meteorological Simulation? A Comparison Analysis for Spatio-temporal Mapping of Mesoscale Urban Air Temperature

Amirhossein Hassani, Gabriela Sousa Santos, Philipp Schneider, Núria Castell

2023Environmental Modeling & Assessment25 citationsDOIOpen Access PDF

Abstract

Abstract Fine-resolution spatio-temporal maps of near-surface urban air temperature ( T a ) provide crucial data inputs for sustainable urban decision-making, personal heat exposure, and climate-relevant epidemiological studies. The recent availability of IoT weather station data allows for high-resolution urban T a mapping using approaches such as interpolation techniques or machine learning (ML). This study is aimed at executing these approaches and traditional numerical modeling within a practical and operational framework and evaluate their practicality and efficiency in cases where data availability, computational constraints, or specialized expertise pose challenges. We employ Netatmo crowd-sourced weather station data and three geospatial mapping approaches: (1) Ordinary Kriging, (2) statistical ML model (using predictors primarily derived from Earth Observation Data), and (3) weather research and forecasting model (WRF) to predict/map daily T a at nearly 1-km spatial resolution in Warsaw (Poland) for June–September and compare the predictions against observations from 5 meteorological reference stations. The results reveal that ML can serve as a viable alternative approach to traditional kriging and numerical simulation, characterized by reduced complexity and higher computational speeds within the domain of urban meteorological studies (overall RMSE = 1.06 °C and R 2 = 0.94, compared to ground-based meteorological stations). The results have implications for identifying the urban regions vulnerable to overheating and evidence-based urban management in response to climate change. Due to the open-sourced nature of the applied predictors and input parsimony, the ML method can be easily replicated for other EU cities.

Topics & Concepts

Weather Research and Forecasting ModelMeteorologyMesoscale meteorologyKrigingGeospatial analysisUrban heat islandComputer scienceEnvironmental scienceNumerical weather predictionDownscalingInterpolation (computer graphics)Data assimilationSatelliteRemote sensingGeographyMachine learningArtificial intelligencePrecipitationEngineeringAerospace engineeringMotion (physics)Urban Heat Island MitigationClimate Change and Health ImpactsUrban Green Space and Health