Advances in autonomous GPS Lagrangian buoys

Author

Wilson, Thomas C., Jr.

Author_Institution

Brightwaters Instrum. Corp., Brightwaters, NY, USA

fYear

1995

fDate

7-9 Feb 1995

Firstpage

157

Lastpage

162

Abstract

Drifting buoys with onboard position receivers have provided valuable Lagrangian current data since their introduction in the mid-1980s. Current autonomous buoys with Global Positioning System (GPS) receivers provide data with quality and quantity unobtainable with ARGOS-only positioning. Advances in hardware, software, and pricing are rapidly broadening the range of applications for these buoys. The author has been constructing autonomous GPS drifters for three years. By using a loosely-coupled electronics design, five major engineering revisions have been possible in that period, reflecting the great advances made in the enabling technologies. This design progression is discussed, along with the specifications made possible by the current technology. A new enabling technology (Orbcomm) is considered as to its applicability to GPS drifting buoys and its potential competition with current telemetry methods of VHF packet radio and ARGOS

Keywords

Global Positioning System; oceanographic equipment; oceanographic techniques; GPS; Global Positioning System; Lagrangian current; Orbcomm; autonomous GPS Lagrangian buoy; design; drifter; drifting buoy; dynamics; equipment; measurement technique; ocean sea surface; onboard position receiver; Costs; Design engineering; Global Positioning System; Lagrangian functions; Marine vehicles; Microprogramming; Packet radio networks; Radio navigation; Receivers; Telemetry;

fLanguage

English

Publisher

ieee

Conference_Titel

Current Measurement, 1995., Proceedings of the IEEE Fifth Working Conference on

Conference_Location

St. Petersburg, FL

Print_ISBN

0-7803-2437-4

Type

conf

DOI

10.1109/CCM.1995.516167

Filename

516167