English

On Oceanic Rogue Waves

Atmospheric and Oceanic Physics 2015-07-10 v5

Abstract

We propose a new conceptual framework for the prediction of rogue waves and third-order space-time extremes of wind seas that relies on the Tayfun (1980) and Janssen (2009) models coupled with Adler-Taylor (2009) theory on the Euler characteristics of random fields. Extreme statistics of the Andrea rogue wave event are examined capitalizing on European Reanalysis (ERA)-interim data. A refinement of Janssen's (2003) theory suggests that in realistic oceanic seas characterized by short-crested multidirectional waves, homogeneous and Gaussian initial conditions become irrelevant as the wave field adjusts to a non-Gaussian state dominated by bound nonlinearities over time scales ttc0.13T0/νσθt\gg t_{c}\approx0.13T_{0}/\nu\sigma_{\theta}, where T0T_{0}, ν\nu and σθ\sigma_{\theta} denote mean wave period, spectral bandwidth and angular spreading of dominant waves. For the Andrea storm, ERA-interim predictions yield tc/T0O(1)t_{c}/T_{0}\sim O(1) indicating that quasi-resonant interactions are negligible. Further, the mean maximum sea surface height expected over the Ekofisk platform's area is higher than that expected at a fixed point. However, both of these statistics underestimate the actual crest height hobs1.63Hsh_{obs}\sim1.63H_s observed at a point near the Ekofisk site, where HsH_s is the significant wave height. To explain the nature of such extreme, we account for both skewness and kurtosis effects and consider the threshold hqh_{q} exceeded with probability qq by the maximum surface height of a sea state over an area in time. We find that hobsh_{obs} nearly coincides with the threshold h1/10001.62Hsh_{1/1000}\sim1.62H_s estimated at a point for a typical 33-hour sea state, suggesting that the Andrea rogue wave is likely to be a rare occurrence in quasi-Gaussian seas.

Keywords

Cite

@article{arxiv.1501.03370,
  title  = {On Oceanic Rogue Waves},
  author = {Francesco Fedele},
  journal= {arXiv preprint arXiv:1501.03370},
  year   = {2015}
}

Comments

Submitted to AMS Journal of Physical Oceanography

R2 v1 2026-06-22T08:01:13.225Z