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 wit...
The main goal of the paper is to present passive, autonomous system to observe objects moving on the...
Conventional mission proven technologies for thedetection of submerged vessels involve both acoustic...
The objective of the NeXOS project is to develop cost-effective, innovative, and compact multifuncti...
The paper describes a network-capable smart hydrophone that, in addition to acoustic detection, also...
Our goal is to develop an inexpensive solution to the problem of near real-time monitoring of marine...
International audienceAutonomous floats have been used for decades to monitor physical properties of...
This Thesis presents a prototype design for Sonobuoy Mobile Earthquake Recording in Marine Areas by ...
International audienceWe have developed a set of long-term autonomous hydrophones dedicated to long-...
In this paper, we provide a comprehensive description of cost-efficient, innovative and interoperabl...
This paper describes cost-efficient, innovative and interoperable ocean passive acoustics sensors sy...
Conventional underwater based acoustic deployment platforms, such as boats, drifting systems or moor...
267-273Underwater environment is the new frontier for major future discovery for the benefits of th...
Unmanned aerial vehicles (UAV) are increasingly becoming a popular tool in the observation and study...
This report describes the design and capabilities of a new ocean bottom hydrophone instrument. The ...
A boom is a line of floats that constitutes a physical barrier for providing abovewater stopping pow...
The main goal of the paper is to present passive, autonomous system to observe objects moving on the...
Conventional mission proven technologies for thedetection of submerged vessels involve both acoustic...
The objective of the NeXOS project is to develop cost-effective, innovative, and compact multifuncti...
The paper describes a network-capable smart hydrophone that, in addition to acoustic detection, also...
Our goal is to develop an inexpensive solution to the problem of near real-time monitoring of marine...
International audienceAutonomous floats have been used for decades to monitor physical properties of...
This Thesis presents a prototype design for Sonobuoy Mobile Earthquake Recording in Marine Areas by ...
International audienceWe have developed a set of long-term autonomous hydrophones dedicated to long-...
In this paper, we provide a comprehensive description of cost-efficient, innovative and interoperabl...
This paper describes cost-efficient, innovative and interoperable ocean passive acoustics sensors sy...
Conventional underwater based acoustic deployment platforms, such as boats, drifting systems or moor...
267-273Underwater environment is the new frontier for major future discovery for the benefits of th...
Unmanned aerial vehicles (UAV) are increasingly becoming a popular tool in the observation and study...
This report describes the design and capabilities of a new ocean bottom hydrophone instrument. The ...
A boom is a line of floats that constitutes a physical barrier for providing abovewater stopping pow...
The main goal of the paper is to present passive, autonomous system to observe objects moving on the...
Conventional mission proven technologies for thedetection of submerged vessels involve both acoustic...
The objective of the NeXOS project is to develop cost-effective, innovative, and compact multifuncti...