Use of advanced directional wave spectra analysis methods |
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Authors: | M. D. Earle K. E. Steele D. W. C. Wang |
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Affiliation: | a Neptune Sciences Inc., 12310 Pinecrest Road, Suite 203, Reston, VA 20191-1636, USA;b National Data Buoy Center, Stennis Space Center, MS 39529-6000, USA;c Naval Research Laboratory, Stennis Space Center, MS 39529-5004, USA |
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Abstract: | Frequency-dependent cross-spectral parameters for pitch-roll buoy data and parameters that describe directional wave spectra based on a directional Fourier series are developed by the National Data Buoy Center (NDBC) and other organizations that collect wave data. The World Meteorological Organization (WMO) specifies wave data product formats in its Wave Observation (FM 65 WAVEOB) code. Other organizations, such as the US Army Corps of Engineers Field Wave Gaging Program (FWGP), have similar specifications. A directional Fourier series has poor directional resolution compared with advanced methods such as those based on maximum likelihood and maximum entropy. Transformations are developed for applying the advanced methods and working with directional wave information stored in the WMO's FM 65 WAVEOB code, the FWGP's Wave Data Analysis Standard (WDAS) format, and similar codes and formats. Using the transformations, a directional Fourier series expansion method, a Maximum Likelihood Method (MLM), and a Maximum Entropy Method (MEM) are each applied to 115 sets of NDBC directional wave data. The MEM and MLM provide better directional resolution, but the MEM produces artificial double peaks. There are considerable differences for the three used methods. The developed transformation equations enable wave data users to apply the method that best suits their applications. |
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Keywords: | Buoys Wave data Wave spectra |
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