Journal
OCEAN DYNAMICS
Volume 60, Issue 4, Pages 973-991Publisher
SPRINGER HEIDELBERG
DOI: 10.1007/s10236-010-0293-3
Keywords
Wave spectra; Dynamical simulations; Nonlinear Schrodinger equation; Dysthe equation; Data interpretation; Spectral analysis; Wavelet analysis
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The paper starts with a discussion of the linear stochastic theory of ocean waves and its various nonlinear extensions. The directional spectrum, with its unique dispersion relation connecting frequency (omega) and wavenumber (k), is no longer valid for nonlinear waves, and examples of (k, omega)-spectra based on analytical expressions and computer simulations of nonlinear waves are presented. Simulations of the dynamic nonlinear evolution of unidirectional free waves using the nonlinear Schrodinger equation and its generalizations show that components above the spectral peak have larger phase and group velocities than anticipated by linear theory. Moreover, the spectrum does not maintain a thin well-defined dispersion surface, but rather develops into a continuous distribution in (k, omega)-space. The majority of existing measurement systems rely on linear theory for the interpretation of their data, and no measurement systems are currently able to measure the full spectrum in the open ocean with high accuracy. Nevertheless, there exist a few low-resolution systems where data may be interpreted within a minimal assumption of a non-restricted (k, omega)-spectrum. The theory is reviewed, and analyses based on conventional spectral analysis as well as a directional wavelet analysis are carried out on data from a compact laser array at the Ekofisk field in the North Sea. The investigation confirms the strong impact of the second order spectrum below the spectral peak, but is non-conclusive about the off-set in the support of the first order spectrum seen in the dynamical simulations.
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