Numerical simulation of backscatter from linear and nonlinear ocean surface realizations

Rino, C. L.; Crystal, T. L.; Koide, Alan K.; Ngo, Hoc D.; Guthart, H.

doi:10.1029/90rs01687

Cited by 64 publications

(38 citation statements)

References 23 publications

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“…h (x,t) exp (−jζx)dx (13) P is the incident wave power captured by the sea surface. The details of kernel functions of the integral, B and M , can be found in [25], here, we safely omit it for the sake of brevity.…”

Section: Ssa-ii Model For Calculation Of the Doppler Spectrummentioning

confidence: 99%

“…Unfortunately, beyond their applicable range of angles, as low-grazing angles (LGA), their predictions are inaccurate to some extent. Rino et al [13] comparatively studied the backscattering and the Doppler spectra from one-dimensional (1-D) time-varying linear and nonlinear Creamer sea surfaces [14] for the first time. Toporkov and Brown [15] made a comprehensive study of the Creamer nonlinear surface scattering characteristics using the method of ordered multiple interactions (MOMI).…”

Section: Introductionmentioning

confidence: 99%

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Investigation on Doppler Spectral Characteristics of Electromagnetic Backscattered Echoes From Dynamic Nonlinear Surfaces of Finite-Depth Sea

Nie¹,

Min²,

Geng³

et al. 2012

PIER

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Abstract-The Doppler spectral characteristics of electromagnetic backscattered echoes from dynamic nonlinear surfaces of finite-depth sea is investigated with the second-order small-slope approximation (SSA-II). The revised nonlinear hydrodynamic choppy wave model (CWM) combining with an experiment-verified shoaling coefficient is utilized to model the finite-depth sea wave profiles, and the simulated surfaces of finite-depth sea show steeper crests and more flat troughs as depth decreases. First, Comparison of the Doppler spectra for linear sea surfaces and nonlinear choppy sea surfaces shows that nonlinear hydrodynamic effect greatly enhances the Doppler shift and the Doppler spectrum bandwidth, and the predicted results agree well with the rigorous numerical model data. The Doppler spectra of backscattered echoes from finite-depth sea with different depths are further evaluated. At small incident angles, the Doppler shifts and the spectra bandwidths are much lower for shallower sea, and the opposite situation can be gradually observed for increased incident angles. This indicates that the nonlinear wave-wave interactions among waves occur more frequently in finite-depth sea and the long waves will be suppressed while shorter wind waves will be boosted in shallower water. Moreover, the dependence of the Doppler spectral characteristics on polarization is also discussed.

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Section: Ssa-ii Model For Calculation Of the Doppler Spectrummentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Investigation on Doppler Spectral Characteristics of Electromagnetic Backscattered Echoes From Dynamic Nonlinear Surfaces of Finite-Depth Sea

Nie¹,

Min²,

Geng³

et al. 2012

PIER

View full text Add to dashboard Cite

show abstract

“…This corresponds to a surface being invariant along one direction, e.g., the y direction, with an elevation z = η(x). With the radio waves propagating much faster than water waves, the surface can be frozen at any given time t from a scattering point of view [14]. Time dependence of the surface height and horizontal displacement D(x) are thus neglected in the derivations of this section.…”

Section: Mom For "Choppy" Surfacesmentioning

confidence: 99%

“…In the last decade, significant progresses have been made in numerical and physical modeling of the microwave Doppler spectra. It has become clear that a rigorous electromagnetic approach [14]- [19], combined with nonlinear hydrodynamic models [20]- [22], is necessary to reproduce, at least qualitatively, the observed phenomena. In the reference paper [23] and its follow-up [24], a systematic numerical computation of Doppler spectra under different wind conditions has been conducted using a rigorous electromagnetic method and the weakly nonlinear Creamer model.…”

mentioning

confidence: 99%

Sea Surface Microwave Scattering at Extreme Grazing Angle: Numerical Investigation of the Doppler Shift

Miret

Soriano

Nouguier

et al. 2014

IEEE Trans. Geosci. Remote Sensing

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Abstract-We present a numerical investigation of horizontally polarized microwave scattering from 1-D sea surfaces at extreme grazing angles. Rigorous electromagnetic calculations are performed with a specific integral formalism dedicated to grazing angles. Sample sea surfaces are simulated using a classical Pierson-Moskowitz elevation spectrum together with weakly nonlinear hydrodynamic models, namely, the Creamer solution, the "choppy wave model," and a recent improved version thereof. For this, the electromagnetic integral formalism is extended to surfaces with irregular sampling. For the different nonlinear surface models and assuming no large-scale current, we evidence a dramatic increase, followed by a saturation of the mean Doppler shift in the last few grazing degrees, with a limiting value depending quasilinearly on the significant wave height. Our numerical investigations confirm that breaking events are not necessary to produce fast scatterers but tend to show that they are necessary to reproduce the elevated level of backscattered power. The results of this study also support the hypothesis that the blow-up of the mean Doppler shift at grazing angle is associated to an electromagnetic sharp edge effect on the large surface crests rather than geometrical shadowing of the troughs.Index Terms-Doppler effect, method of moments, sea surface.

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“…As a second validity check for MLAYER, a height/range profile was created for one realization of a random sea surface using the Pierson-Moskowitz ocean wave spectrum [12]. This profile was used as input to TPEM (Terrain Parabolic Equation Model) [3], which models radiowave propagation over variable terrain.…”

Section: Reference Modelmentioning

confidence: 99%

Rough Surface Models Implemented Within the Split-Step Parabolic Equation Algorithm

Barrios¹,

Craig²

1994

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Numerical simulation of backscatter from linear and nonlinear ocean surface realizations

Cited by 64 publications

References 23 publications

Investigation on Doppler Spectral Characteristics of Electromagnetic Backscattered Echoes From Dynamic Nonlinear Surfaces of Finite-Depth Sea

Investigation on Doppler Spectral Characteristics of Electromagnetic Backscattered Echoes From Dynamic Nonlinear Surfaces of Finite-Depth Sea

Sea Surface Microwave Scattering at Extreme Grazing Angle: Numerical Investigation of the Doppler Shift

Rough Surface Models Implemented Within the Split-Step Parabolic Equation Algorithm

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