Title :
PortMap: a VHF ocean surface radar for high spatial resolution
Author :
Heron, M.L. ; Helzel, T. ; Pryt, A. ; Kniephoff, M. ; Skirving, W.J.
Author_Institution :
James Cook Univ., Townsville, Qld., Australia
Abstract :
A VHF ocean surface radar system operating at 152.2 MHz with a bandwidth of 1.5 MHz is producing surface currents on a spatial grid of 100 m. This is an appropriate spatial resolution for current map products in Ports and Harbours and around natural or built headland features. The design parameters for the new PortMap radar are discussed and sample data are shown using an early prototype for a narrow tidal inlet with a shipping channel and mudflats on each side. We show that eddy structures develop in the ebb flow which have special consequences for sediment transport in the alongshore direction across the mouth of the inlet. A second case study is shown where an alongshore current interacts with a headland to produce a recirculation of water on the leeward side. In both cases the 100 m spatial scale of the data points gives a well-sampled image for surface current.
Keywords :
VHF radio propagation; marine radar; oceanographic techniques; radar imaging; sediments; 1.5 MHz; 152.2 MHz; Harbours; PortMap radar; Ports; VHF ocean surface radar; alongshore current; built headland features; current map products; ebb flow; eddy structures; high spatial resolution; leeward side; mudflats; narrow tidal inlet; natural feature; sediment transport; shipping channel; surface currents; water recirculation; well-sampled image; Australia; Hafnium; Marine technology; Monitoring; Oceans; Radar scattering; Sea measurements; Sea surface; Sediments; Spatial resolution;
Conference_Titel :
Oceans 2005 - Europe
Conference_Location :
Brest, France
Print_ISBN :
0-7803-9103-9
DOI :
10.1109/OCEANSE.2005.1511767
