A technique is presented for the assimilation of ocean surface current
s determined from Doppler radar systems into numerical ocean models. A
n approach is taken in which the Doppler radar current data act as if
there were an additional layer of water overlying the ocean surface. A
pseudo-shearing stress resulting from the difference between the mode
l-predicted velocity and the Doppler radar velocity is added to that o
f the wind in order to force a model. Test applications are presented
for an ocean model of the Monterey Bay, California, region. Comparison
s are made between optimized and non-optimized assimilation techniques
based on the shearing stress approach. The optimized assimilation sch
eme provides the minimum additional shearing stress while achieving a
significant nudging of the model surface currents toward the basic cha
racteristics of the observed field of Doppler radar currents. Analyses
indicate that the model surface currents take on the general pattern
of the Doppler radar currents but not always the magnitude. The radar
currents are shown to have significant divergences and unrealistic spa
tial variations of divergence. Characteristics of this sort for oppler
data suggest additional processing for such observations. (C) 1998 El
sevier Science Ltd. All rights reserved.