Title :
Autonomous Hydrophones at NOAA/OSU and a New Seafloor Sentry System for Real-time Detection of Acoustic Events
Author :
Matsumoto, H. ; Dziak, R.P. ; Mellinger, D.K. ; Fowler, M. ; Haxel, J. ; Lau, Andy ; Meinig, C. ; Bumgardner, J. ; Hannah, Walter
Author_Institution :
Cooperative Inst. for Marine Resources, Oregon State Univ., Newport, OR
Abstract :
Development is under way of a new intelligent autonomous hydrophone system, the Quasi-Eulerian hydrophone, or QUEphone. A tether-free portable hydrophone float with built-in data processor, it is capable of repeated vertical ascents and descents from seabed to surface using an internal buoyancy controller. While on the seafloor, it runs an acoustic event detection algorithm continuously; upon detection of a significant acoustic event, or at regular intervals, it surfaces to transmit its position at the surface and a small data file to shore via satellite. Issues of detecting acoustic events at low false alarm rate and applications of this new technology to monitoring other geochemical, biological, and oceanographic properties associated with the world´s ecosystem are discussed. Float payload, depth limitation, and vertical travel speed are also discussed
Keywords :
hydrophones; marine systems; oceanographic equipment; underwater sound; Float payload; NOAA; OSU; QUEphone; Quasi-Eulerian hydrophone; acoustic event detection algorithm; autonomous hydrophone system; biological properties; data file; data processor; depth limitation; ecosystem; geochemical properties; internal buoyancy controller; oceanographic properties; seafloor sentry system; tether-free portable hydrophone float; vertical travel speed; Acoustic applications; Acoustic signal detection; Event detection; Intelligent systems; Marine technology; Real time systems; Satellites; Sea floor; Sea surface; Sonar equipment;
Conference_Titel :
OCEANS 2006
Conference_Location :
Boston, MA
Print_ISBN :
1-4244-0114-3
Electronic_ISBN :
1-4244-0115-1
DOI :
10.1109/OCEANS.2006.307041
