2013
DOI: 10.1017/jfm.2012.497
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The inverse water wave problem of bathymetry detection

Abstract: The inverse water wave problem of bathymetry detection is the problem of deducing the bottom topography of the seabed from measurements of the water wave surface. In this paper, we present a fully nonlinear method to address this problem in the context of the Euler equations for inviscid irrotational fluid flow with no further approximation. Given the water wave height and its first two time derivatives, we demonstrate that the bottom topography may be reconstructed from the numerical solution of a set of two … Show more

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Cited by 30 publications
(40 citation statements)
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“…The authors studied the possibility of reconstructing the sea-bed topography based on surface-wave measurements. Our version of the AFM * formulation is linear and in three dimensions, as opposed to that of Vasan & Deconinck [27] which was nonlinear and in two dimensions. Our goal is to take one step forward by modeling complex (not necessarily smooth) topographies that involve large and rapid variations and, as mentioned, perform simulations with fully three dimensional configurations.…”
Section: Variable-depth Non-local Formulationmentioning
confidence: 99%
See 3 more Smart Citations
“…The authors studied the possibility of reconstructing the sea-bed topography based on surface-wave measurements. Our version of the AFM * formulation is linear and in three dimensions, as opposed to that of Vasan & Deconinck [27] which was nonlinear and in two dimensions. Our goal is to take one step forward by modeling complex (not necessarily smooth) topographies that involve large and rapid variations and, as mentioned, perform simulations with fully three dimensional configurations.…”
Section: Variable-depth Non-local Formulationmentioning
confidence: 99%
“…As mentioned in the introduction, this non-local formulation was proposed in the work of Milewski [22], and more recently by Craig et al [9] and Ablowitz et al [1]. The work of Vasan & Deconinck [27] was one of the first articles in which the AFM formulation was used with bathymetry variations. The authors studied the possibility of reconstructing the sea-bed topography based on surface-wave measurements.…”
Section: Variable-depth Non-local Formulationmentioning
confidence: 99%
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“…These four methods are the operator expansion method of Craig & Sulem (CS) [10], the transformed field expansion method (TFE) of Bruno & Reitich [7] and Nicholls & Reitich [23,24], the nonlocal implicit formulation of the DNO given by Ablowitz, Fokas & Musslimani (AFM) [2], and a dual version to the AFM method, derived by Ablowitz & Haut [1], which we denote by AFM * . Each of these methods has had remarkable theoretical utility in deriving reduced models for water waves in various physical regimes [11], in deriving conserved quantities [2], and also in providing the theoretical framework to pose some inverse problems [25,28]. Additionally, each of these methods readily generalizes to the case of both varying bottom boundaries and three dimensional fluids.…”
Section: Introductionmentioning
confidence: 99%