A marine radar attached to a digital image capture system has been adapted
for deployment from shore sites. Optimum operating parameters have been ide
ntified in relation to the resolution and sampling capabilities of both the
radar and the digitization system. Special software enables individual ima
ges to be geographically located so that several images can be averaged to
reduce speckle and to eliminate features that fluctuate at high frequency.
Test deployments at several coastal sites in the south of England confirm t
hat the system is capable of making unique measurements for a variety of oc
eanographic applications in the coastal zone. The spatial distribution of w
ave crests approaching the shore can be measured, and by averaging over tim
e, the location of the breaker zone can be established. Although the precis
e mechanisms for backscatter of grazing incidence radar are not fully under
stood, it is clear that the radar can also detect the surface signatures of
estuarine fronts and wastewater discharge plumes. The interaction between
tidal flow and bathymetric features can also be detected by the surface rou
ghness signature. The radar is particularly useful for monitoring the gradu
al evolution of processes over a tidal cycle.