A New Approach to Estimating the T-Year Return-Period Wave Height

The paper introduces a new approach to estimating the T-year return-period wave height (TRPW), i.e. the wave height expected to occur in T-year, from two sets of observed extreme data and on the basis of the maximum entropy principle. The main points of the approach are as follows. 1) A maximum entr...

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Bibliographic Details
Published inJournal of Ocean University of China Vol. 10; no. 3; pp. 219 - 222
Main Authors Zhang, Jun, Song, Wenpeng, Ge, Yong
Format Journal Article
LanguageEnglish
Published Heidelberg SP Science Press 01.09.2011
Springer Nature B.V
North China Sea Environmental Monitoring Center, State Oceanic Administration, Qingdao 266033, P. R. China
Third Institute of Oceanography State Oceanic Administration, Xiamen 361005, P. R. China%Key Laboratory of Marine Spill Oil Identification and Damage Assessment Technology, State Oceanic Administration,Qingdao 266033, P. R. China
Subjects
Earth and Environmental Science
Earth Sciences
Marine
Maximum entropy
Meteorology
Ocean engineering
Oceanography
PDF
Wave height
Wave power
估计
参数表示
最大熵原理
概率密度函数
欧拉方程
波高
观测数据
year return-period wave height
maximum entropy
Euler equation
T-year return-period wave height
Online AccessGet full text
ISSN1672-5182
1993-5021
1672-5174
DOI10.1007/s11802-011-1816-3

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Summary:The paper introduces a new approach to estimating the T-year return-period wave height (TRPW), i.e. the wave height expected to occur in T-year, from two sets of observed extreme data and on the basis of the maximum entropy principle. The main points of the approach are as follows. 1) A maximum entropy probability density function (PDF) for the extreme wave height H is derived from a Euler equation subject to some necessary and rational constraints. 2) The parameters in the function are expressed in terms of the mth moment of H. 3) This PDF is convenient to theoretical and practical applications as it is simple and its four parameters are easy to be determined from observed extreme data. An example is given for estimating the TRPW in 50 and 100 years by the present approach and by some currently used methods using observed data at two hydrographic stations.The comparison of the estimated results shows that the present approach is quite similar to the Pearson-Ⅲ and Gumbel methods.
Bibliography:The paper introduces a new approach to estimating the T-year return-period wave height (TRPW), i.e. the wave height expected to occur in T-year, from two sets of observed extreme data and on the basis of the maximum entropy principle. The main points of the approach are as follows. 1) A maximum entropy probability density function (PDF) for the extreme wave height H is derived from a Euler equation subject to some necessary and rational constraints. 2) The parameters in the function are expressed in terms of the mth moment of H. 3) This PDF is convenient to theoretical and practical applications as it is simple and its four parameters are easy to be determined from observed extreme data. An example is given for estimating the TRPW in 50 and 100 years by the present approach and by some currently used methods using observed data at two hydrographic stations.The comparison of the estimated results shows that the present approach is quite similar to the Pearson-Ⅲ and Gumbel methods.
maximum entropy; T-year return-period wave height; Euler equation
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ISSN:1672-5182
1993-5021
1672-5174
DOI:10.1007/s11802-011-1816-3