Estimating the extreme values of significant wave height (HS), generally described by the HS return period TR function HS(TR) and by its confidence intervals, is a necessity in many branches of coastal science and engineering. The availability of indirect wave data generated by global and regional wind and wave model chains have brought radical changes to the estimation procedures of such probability distribution—weather and wave modeling systems are routinely run all over the world, and HS time series for each grid point are produced and published after assimilation (analysis) of the ground truth. However, while the sources of such indirect data are numerous, and generally of good quality, many aspects of their procedures are hidden to the...
A method of calculation of wind wave height probability based on the significant wave height probab...
26 pagesInternational audienceThis work is motivated by the analysis of the extremal behavior of buo...
Characterising the dependence between extremes of wave spectral parameters such as significant wave ...
Estimating the extreme values of significant wave height (HS), generally described by the HS return ...
Estimating the extreme values of significant wave height (HS), generally described by the HS return ...
An essential tool of engineering is the estimation of the probability of of natural events, such a...
Calculating the significant wave height (SWH) in a given location as a function of the return time i...
Extreme wave parameters are used for engineering design in our seas and oceans, yet the methods used...
This work is motivated by the analysis of the extremal behavior of buoy and satellite data describin...
Estimation of extreme wave height across the oceans is important for marine safety and design, but i...
This work is motivated by the analysis of the extremal behavior of buoy and satellite data describin...
This thesis contains a review of existing statistical techniques for the prediction of extreme waves...
Extreme waves influence coastal engineering activities and have an immense geophysical implication. ...
The prediction of extreme value (e.g. 1 in 100 year) estimates of wind speed and wave height is an e...
A method of calculation of wind wave height probability based on the significant wave height probab...
26 pagesInternational audienceThis work is motivated by the analysis of the extremal behavior of buo...
Characterising the dependence between extremes of wave spectral parameters such as significant wave ...
Estimating the extreme values of significant wave height (HS), generally described by the HS return ...
Estimating the extreme values of significant wave height (HS), generally described by the HS return ...
An essential tool of engineering is the estimation of the probability of of natural events, such a...
Calculating the significant wave height (SWH) in a given location as a function of the return time i...
Extreme wave parameters are used for engineering design in our seas and oceans, yet the methods used...
This work is motivated by the analysis of the extremal behavior of buoy and satellite data describin...
Estimation of extreme wave height across the oceans is important for marine safety and design, but i...
This work is motivated by the analysis of the extremal behavior of buoy and satellite data describin...
This thesis contains a review of existing statistical techniques for the prediction of extreme waves...
Extreme waves influence coastal engineering activities and have an immense geophysical implication. ...
The prediction of extreme value (e.g. 1 in 100 year) estimates of wind speed and wave height is an e...
A method of calculation of wind wave height probability based on the significant wave height probab...
26 pagesInternational audienceThis work is motivated by the analysis of the extremal behavior of buo...
Characterising the dependence between extremes of wave spectral parameters such as significant wave ...