Physics – Atmospheric and Oceanic Physics
Scientific paper
2001-07-18
International Journal of Offshore and Polar Engineering Vol. 12, No. 2, pp. 109-113, June 2002 (ISSN 1053-5381)
Physics
Atmospheric and Oceanic Physics
8 pages, LaTeX. Submitted to the International Journal of Offshore and Polar Engineering, 2001 July 16. Replaced (10 pages, 3
Scientific paper
The statistics of sea state duration (persistence) have been found to be dependent upon the recording interval \Delta t. Such behavior can be explained as a consequence of the fact that the graph of a time series of an environmental parameter such as the significant wave height has an irregular, "fractal" geometry. The mean duration, \bar\tau, can have a power-law dependence on \Delta t as \Delta t -> 0, with an exponent equal to the fractal dimension of the level sets of the time series graph. This recording interval dependence means that the mean duration is not a well defined quantity to use for marine operational purposes. A more practical quantity may be the "useful mean duration", \bar\tau^u, estimated from the formula (\sum\tau_i^2)/(\sum\tau_i), where each interval [t_i,t_i+\tau_i] satisfying the appropriate criterion is weighted by its duration. These results are illustrated using wave data from the Frigg gas field in the North Sea.
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