Title :
Autonomous river drifting buoys — Applications and improvements
Author :
Emery, Lisa ; Smith, Richard ; McQuary, Rebecca ; Hughes, Bill ; Taylor, David
Author_Institution :
Technol. Solutions Group, QinetiQ North America, Slidell, LA, USA
Abstract :
Determination of existing river conditions poses a challenge due to constantly changing current speeds, water level, presence of vegetation, precipitation, as well as other environmental factors. QinetiQ North America (QNA) Technology Solutions group has developed a Lagrangian river drifter for the remote collection and transmission of real-time surface velocities, water depth and temperature as a function of position. A discussion of the design improvements and results achieved during deployment of the QNA Riverine Drifter are provided in this paper.
Keywords :
hydrological equipment; hydrological techniques; rivers; Lagrangian river drifter; QNA Riverine Drifter; QinetiQ North America Technology Solutions group; autonomous river drifting buoy; current speed; environmental factors; precipitation; real-time surface velocity; river condition; vegetation; water depth; water level; water temperature; Bridges; Educational institutions; Global Positioning System; Rivers; Temperature; Temperature measurement; Testing;
Conference_Titel :
OCEANS 2011
Conference_Location :
Waikoloa, HI
Print_ISBN :
978-1-4577-1427-6
