High waves in Draupner seas—Part 2: Observation and prediction from synthetic radar images

Groesen, E. van; Wijaya, Andreas Parama

doi:10.1007/s40722-017-0090-x

Cited by 14 publications

(2 citation statements)

References 18 publications

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“…A Radar Module is under development to predict waves, including freak waves as in Sect. 3.3, ahead of their appearance [16,17]. A ship module for fully coupled wave-ship-structure interactions are being developed for future releases.…”

Section: Discussionmentioning

confidence: 99%

Spectral AB Simulations for Coastal and Ocean Engineering Applications

Kurnia

Turnip²,

Groesen

2018

Lecture Notes in Civil Engineering

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For simulating phase-resolved waves in large coastal and oceanic areas, as well as in confined coastal areas and ports, efficient, stable and accurate Boussinesq type of equations for irrotational flows are much desired. Results can also be used as input for CFD calculations on smaller domains when viscous and vorticial effects need to be included. In this contribution, we present examples of recent results using the AB (Analytic Boussinesq) model that has been developed based on consistent modelling of the Hamiltonian formulation of free surface waves. The pseudo-spectral AB code with various order of nonlinearity can deal with breaking waves and with spatial inhomogeneities such as bathymetry and harbour walls with fully or partially reflecting walls and breakwaters. A separate Radar Module can reconstruct and predict phase-resolved waves from radar images, and a Ship Module can deal with fully coupled wave-ship-structure interactions. In this paper, we illustrate the performance of simulations for three application areas: wave tank experiments, incoming waves in a harbour with deep access channel, and extreme, freak waves in Draupner seas as introduced in van Groesen et al., OEME 2017.

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Section: Discussionmentioning

confidence: 99%

Spectral AB Simulations for Coastal and Ocean Engineering Applications

Kurnia

Turnip²,

Groesen

2018

Lecture Notes in Civil Engineering

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“…For the radar height, we take as example H r = 30 m above the still water level, which is a reasonable value for large ships as oil and gas tankers (Van Groesen et al 2017). Figure 2 shows a sample frame of the simulated wave elevation ( , t) and the corresponding synthetic radar image.…”

Section: Wave Field Reconstruction From Synthetic Radar Imagesmentioning

confidence: 99%

An improved algorithm for phase-resolved sea surface reconstruction from X-band marine radar images

Zinchenko

Vasilyev

Halstensen

et al. 2021

J. Ocean Eng. Mar. Energy

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We present a modified methodology for phase-resolved surface wave reconstruction from incoherent X-band marine radar images. The method is based on the linear wave theory and uses the linear dispersion relation to extract the valuable signals associated with gravity waves. A parameter optimization of the proposed modification is performed based on simulated synthetic radar images. The quantitative comparisons in the accuracy of the standard and modified reconstruction methods are made for both simulated and real radar images. The correlation coefficient between reconstructed and true wave elevations is improved up to 0.9–0.92 for the present modified method from 0.69 to 0.74 for the standard method for the simulated sea surfaces. The wave spectra reconstructed from the real X-band radar measurements are in good agreement with those obtained from the independent point measurement by Miros RangeFinder for both unimodal and bimodal seas.

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Analysis of the Nonlinear Spectrum of Intense Sea Wave with the Purpose of Extreme Wave Prediction

Slunyaev

2018

Radiophys Quantum El

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High waves in Draupner seas—Part 2: Observation and prediction from synthetic radar images

Cited by 14 publications

References 18 publications

Spectral AB Simulations for Coastal and Ocean Engineering Applications

Spectral AB Simulations for Coastal and Ocean Engineering Applications

An improved algorithm for phase-resolved sea surface reconstruction from X-band marine radar images

Analysis of the Nonlinear Spectrum of Intense Sea Wave with the Purpose of Extreme Wave Prediction

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