Litcius/Paper detail

Optimal grid resolution for precipitation maps from commercial microwave link networks

Remco van de Beek, Jonas Olsson, Jafet Andersson

2020Advances in science and research17 citationsDOIOpen Access PDF

Abstract

Abstract. High-resolution precipitation observation based on signal attenuation in a Commercial Microwave Link (CML) network is an emerging technique that is becoming more and more used. Commonly, the raw data – line measurements from successive time steps – are mapped onto a grid to estimate precipitation fields with a full spatio-temporal coverage. Assuming the CML-estimated precipitation to be accurate, the attainable resolutions in time and space are primarily dependent on two factors: (i) the spatial distribution of the link network and (ii) the spatial correlation properties of the precipitation. Here we outline a pragmatic method for estimating the optimal resolution based on variogram analysis. The method is demonstrated using a CML network and a representative variogram in Stockholm, Sweden. Conceivable applications include preliminary investigations in cities considering starting CML-based precipitation observations.

Topics & Concepts

VariogramPrecipitationGridComputer scienceAttenuationEnvironmental scienceMicrowaveRemote sensingMeteorologyTelecommunicationsGeologyGeographyKrigingGeodesyPhysicsOpticsMachine learningPrecipitation Measurement and AnalysisMeteorological Phenomena and SimulationsClimate variability and models
Optimal grid resolution for precipitation maps from commercial microwave link networks | Litcius