Z. Hao et M. Ghil, DATA ASSIMILATION IN A SIMPLE TROPICAL OCEAN MODEL WITH WIND STRESS ERRORS, Journal of physical oceanography, 24(10), 1994, pp. 2111-2128
A major error source in the numerical simulation of tropical oceans is
the uncertainty in wind stress forcing. A reduced-gravity shallow-wat
er model has been used to test how assimilated ocean data correct simu
lation errors caused by erroneous wind stress in the tropics. The geom
etry of the basin is rectangular and symmetric about the equator, and
the long-wave approximation is applied. All experiments are of the ide
ntical-twin type: the ''observations'' are generated by sampling the d
esired reference solution, and the data are assimilated by optimal int
erpolation into the same model, with wind stress forcing different fro
m that in the reference case. In this paper, three types of wind stres
s errors are considered: errors of timing only, as well as persistent
errors, systematic or stochastic. The relative usefulness of thermocli
ne depth and current observations, and the effect of data distribution
on state estimation are examined. The role of equatorial ocean waves
in the process of data assimilation is also studied.