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Wave-by-Wave Forecasting via Assimilation of Marine Radar Data

Alexandra Simpson, Merrick C. Haller, David T. Walker, Patrick Lynett, David Honegger

2020Journal of Atmospheric and Oceanic Technology17 citationsDOI

Abstract

Abstract This work describes a phase-resolving wave-forecasting algorithm that is based on the assimilation of marine radar image time series. The algorithm is tested against synthetic data and field observations. The algorithm couples X-band marine radar observations with a phase-resolving wave model that uses the linear mild slope equations for reconstruction of water surface elevations over a large domain of O (km) and a prescribed time window of O (min). The reconstruction also enables wave-by-wave forecasting through forward propagation in space and time. Marine radar image time series provide the input wave observations through a previously given relationship between backscatter intensity and the radial component of the sea surface slope. The algorithm assimilates the wave slope information into the model via a best-fit wave source function at the boundary that minimizes the slope reconstruction error over an annular region at the outer ranges of the radar images. The wave model is then able to propagate the waves across a polar domain to a location of interest at nearer ranges. The constraints on the method for achieving real-time forecasting are identified, and the algorithm is verified against synthetic data and tested using field observations.

Topics & Concepts

RadarGeologyData assimilationRemote sensingWind waveSignificant wave heightRadar imagingAiry wave theoryAlgorithmWave radarWave heightMeteorologyComputer scienceGeodesyWave propagationContinuous-wave radarBreaking wavePhysicsOpticsStokes waveTelecommunicationsOceanographyOcean Waves and Remote SensingOceanographic and Atmospheric ProcessesCoastal and Marine Dynamics
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