Spatial size of waves
(2016) In Working Papers in Statistics- Abstract
- A method of measuring three-dimensional spatial wave size is proposed and statistical distributions of the size characteristics are derived in explicit integral forms for Gaussian sea surfaces. New definitions of wave characteristics such as the crest-height, the length, the size and the wave front location are provided in fully dimensional context. The joint statistical distributions of these wave characteristics are expressed in the terms of a directional power spectrum. The proposed approach allows for investigation of the influence of spectral shape and directionality on the joint distributions of the size characteristics. The method is validated by comparing numerical evaluations of the distributions with the observed frequencies... (More)
- A method of measuring three-dimensional spatial wave size is proposed and statistical distributions of the size characteristics are derived in explicit integral forms for Gaussian sea surfaces. New definitions of wave characteristics such as the crest-height, the length, the size and the wave front location are provided in fully dimensional context. The joint statistical distributions of these wave characteristics are expressed in the terms of a directional power spectrum. The proposed approach allows for investigation of the influence of spectral shape and directionality on the joint distributions of the size characteristics. The method is validated by comparing numerical evaluations of the distributions with the observed frequencies extracted from simulations of sea surface. The comparisons demonstrate high accuracy of the obtained distributions. (Less)
Please use this url to cite or link to this publication:
https://lup.lub.lu.se/record/2a88e9e8-913f-4a36-9b8e-52d536cdcbe5
- author
- Podgórski, Krzysztof LU and Rychlik, Igor
- organization
- publishing date
- 2016
- type
- Working paper/Preprint
- publication status
- published
- subject
- keywords
- Gaussian fields, Rice formula, sea surface, directional spectra, wave statistics, wave crest
- in
- Working Papers in Statistics
- issue
- 2016:3
- pages
- 21 pages
- publisher
- Department of Statistics, Lund university
- external identifiers
-
- scopus:84978194597
- language
- English
- LU publication?
- yes
- id
- 2a88e9e8-913f-4a36-9b8e-52d536cdcbe5
- date added to LUP
- 2016-09-21 13:29:58
- date last changed
- 2022-02-21 20:34:43
@misc{2a88e9e8-913f-4a36-9b8e-52d536cdcbe5, abstract = {{A method of measuring three-dimensional spatial wave size is proposed and statistical distributions of the size characteristics are derived in explicit integral forms for Gaussian sea surfaces. New definitions of wave characteristics such as the crest-height, the length, the size and the wave front location are provided in fully dimensional context. The joint statistical distributions of these wave characteristics are expressed in the terms of a directional power spectrum. The proposed approach allows for investigation of the influence of spectral shape and directionality on the joint distributions of the size characteristics. The method is validated by comparing numerical evaluations of the distributions with the observed frequencies extracted from simulations of sea surface. The comparisons demonstrate high accuracy of the obtained distributions.}}, author = {{Podgórski, Krzysztof and Rychlik, Igor}}, keywords = {{Gaussian fields; Rice formula; sea surface; directional spectra; wave statistics; wave crest}}, language = {{eng}}, note = {{Working Paper}}, number = {{2016:3}}, publisher = {{Department of Statistics, Lund university}}, series = {{Working Papers in Statistics}}, title = {{Spatial size of waves}}, url = {{https://lup.lub.lu.se/search/files/12781977/16157_41328_1_SM.pdf}}, year = {{2016}}, }