Least Squares Techniques For Extracting Water Level Fluctuations in the Persian Gulf and Oman Sea

Extracting the main cyclic fluctuations from sea level changes of the persian gulf and oman sea is vital for understanding the behavior of tides and isolating non-tidal impacts such as those related to climate and changes in the ocean-sea circulations. this study compares two spectral analysis methods including: least squares spectral analysis (lssa) and least squares harmonic estimation (lshe), to analyze satellite altimetry derived sea surface height changes of the persian gulf and oman sea. ssh data are derived from about 16 years of satellite altimetry observations (1992 to 2008), including the topex/poseidon and jason-1 missions. by analyzing the real data, we extract significant tidal components in the spectrum of lssa and ls-he including those with the period of 62.07, 173.3, 58.71, 45.68, 88.86, 364.2 and 117.5 days, which are interpreted as principal lunar semi-diurnal, luni-solar diurnal, principal solar semi-diurnal, principal lunar diurnal, gam2, annual, solar diurnal periods are dominant in the level fluctuations. moreover, some tidal components appear in the spectrum of lssa and ls-he, from which the moon's semidiurnal component m􀬶 is dominant. also, to evaluate the efficiency of these two techniques, we run three experiments in each extracted frequency from lssa, ls-he, and astronomical tide tables are separately used to predict the sea level in the persian gulf and oman sea for three years. the results of this prediction indicate that rmse from lssa, astronomical table, and ls-he is 0.101 m, 0.093 m, and 0. 086 m, respectively. according to the results ls-he is found a more efficient technique to analyze cyclic fluctuations from altimetry measurements.

Least Squares Techniques for Extracting Water Level Fluctuations in the Persian Gulf and Oman Sea

Extracting the main cyclic fluctuations from sea level changes of the Persian Gulf and Oman Sea is vital for understanding the behavior of tides and isolating nontidal impacts such as those related to climate and changes in the oceansea circulations. This study compares two spectral analysis methods including: Least Squares Spectral Analysis (LSSA) and Least Squares Harmonic Estimation (LSHE), to analyze satellite altimetry derived sea surface height changes of the Persian Gulf and Oman Sea. SSH data are derived from about 16 years of satellite altimetry observations (1992 to 2008), including the Topex/Poseidon and Jason1 missions. By analyzing the real data, we extract significant tidal components in the spectrum of LSSA and LSHE including those with the period of 62.07, 173.3, 58.71, 45.68, 88.86, 364.2 and 117.5 days, which are interpreted as Principal Lunar semidiurnal, LuniSolar Diurnal, Principal Solar Semidiurnal, Principal Lunar Diurnal, GAM2, annual, Solar Diurnal periods are dominant in the level fluctuations. Moreover, some tidal components appear in the spectrum of LSSA and LSHE, from which the Moon’s semidiurnal component  is dominant. Also, to evaluate the efficiency of these two techniques, we run three experiments in each extracted frequency from LSSA, LSHE, and astronomical tide tables are separately used to predict the sea level in the Persian Gulf and Oman Sea for three years. The results of this prediction indicate that RMSE from LSSA, astronomical table, and LSHE is 0.101 m, 0.093 m, and 0. 086 m, respectively. According to the results LSHE is found a more efficient technique to analyze cyclic fluctuations from altimetry measurements.