Statistical properties of global significant wave heights and their use for validation

Abstract

Global data sets of significant wave height (H_s) from altimeter measurements and from the wave model WAM are analyzed statistically to assess the quality of the data.H_sderived from the altimeters aboard Seasat (1978), Geosat (1988), ERS‐1 (1993, 1994), and TOPEX (1993, 1994) and from WAM (1988, 1993) and, in addition, from in situ data of Ocean Weather Station M in the North Atlantic are used. First, collocated data sets are compared through linear regression and principal component analysis. From this, a good agreement betweenH_sof the ERS‐1 altimeter (1993) and the WAM model is inferred. Second, theH_sfrequency distributions are described by the first four moments. Using the first four moments of linear order statistics, the lognormal and the general extreme value distribution function are found to approximate distributions ofH_sbest.H_sfrom Seasat and ERS‐1 (1993) deviate from these empirical distribution functions, manifesting weaknesses in the data. AlthoughH_sfrom ERS‐1 have weaknesses, their assimilation into WAM has a positive impact. The assessment of the quality of this existingH_sdata provides a prerequisite for the coming assimilation schemes using wave data from synthetic aperture radars and also for climate research studies.