Title :
A Buoyant Tethered Sphere for Marine Current Estimation
Author :
Marchant, Roman ; Stevens, Timothy ; Choukroun, Severine ; Coombes, Gavin ; Santarossa, Michael ; Whinney, James ; Ridd, Peter
Author_Institution :
Sch. of Eng. & Phys. Sci., James Cook Univ., Townsville, QLD, Australia
Abstract :
The high cost of acoustic Doppler ocean current meters means few are deployed in marine research studies. To address this problem, we have developed a low-cost robust current velocimeter based on the drag-tilt principle. The instrument tilts in response to current flow, for which the angle and direction of tilt are related to the water velocity. Static analytic approximation shows a sigmoid-type tilt response to increasing current speed. We detail a calibration method that models the relationship using a Gompertz curve. Calibration and field tests conducted near Magnetic Island, Australia, show a speed accuracy of 0.05 m/s for current speeds less than 0.6 m/s, and direction accuracy better than 15 ° for current speeds greater than 0.15 m/s. This instrument should be especially useful for research projects where numerous or spatially dense measurements of ocean currents are required.
Keywords :
calibration; flow measurement; oceanographic equipment; oceanographic techniques; velocimeters; Gompertz curve; buoyant tethered sphere; calibration method; current flow; drag-tilt principle; low cost current velocimeter; marine current estimation; robust current velocimeter; sigmoid type tilt response; static analytic approximation; tilt angle; tilt direction; water velocity; Acceleration; Calibration; Current measurement; Drag; Instruments; Sea measurements; Sensors; Drag; low-cost instrumentation; measurement; ocean current;
Journal_Title :
Oceanic Engineering, IEEE Journal of
DOI :
10.1109/JOE.2012.2236151
