Loading…

Prototype autonomous mini-buoy for use in a wireless networked, ocean surface sensor array

We report the design, prototype construction and initial testing of a small minibuoy that is aimed at use in a coordinated, wireless networked array of buoys for near-surface ocean sensing. This vehicle is designed to fill the gap between larger ocean surface vessels and/or moored buoys and subsurfa...

Full description

Saved in:
Bibliographic Details
Main Authors: Vesecky, J.F., Laws, K., Petersen, S.I., Bazeghi, C., Wiberg, D.
Format: Conference Proceeding
Language:English
Subjects:
Online Access:Request full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:We report the design, prototype construction and initial testing of a small minibuoy that is aimed at use in a coordinated, wireless networked array of buoys for near-surface ocean sensing. This vehicle is designed to fill the gap between larger ocean surface vessels and/or moored buoys and subsurface gliders. The size and cost is low enough that these versatile sensor platforms can be deployed easily and in quantity. Since these minibuoys are mobile, they can keep station in currents as large as 25 cm/s or move as an adaptive, coordinated sensor array for high resolution in both time and space. The buoy is about 74 cm (29 in) long, 41 cm (16 in) wide (max) and weighs about 14.5 kg (32 lbs); hence, it can be deployed easily from small craft. Deployment times are about 1 to 2 days or more - longer with solar power. The buoy structure is fiberglass and PVC with two 2 W DC motors. Control is done with GPS and magnetic heading sensors and a PID scheme to maintain course. Communication is via a 900 MHz system with a range of 1 to 2 km and plans for a longer range HF/VHF or satellite system. The initial sensor system is designed for ocean hyperspectral observations as surface truth for airborne system calibration and validation and other ocean color applications. Acoustic, wave, air & water temperature sensors as well as GPS are included. The Mark I prototype has been successfully tested in a pool with manual control.
ISSN:2153-6996
2153-7003
DOI:10.1109/IGARSS.2007.4423981