Thor Husøy scite author profile

This paper provides an overview of the CLAM project, which aims at developing a collaborative embedded monitoring and control platform for submarine surveillance by combining cutting edge acoustic vector sensor technology and 1D, 2D, 3D sensor arrays, underwater wireless sensor networks protocol design, advanced techniques for acoustic communication, new solutions for collaborative situation-aware reasoning and distributed data and signal processing and control for horizontal and vertical sensor arrays. The result will be a new system architecture accommodating pervasively distributed heterogeneous sensor nodes deployed at different water depths, which provides a flexible, reconfigurable, and robust platform for online surveillance of submarine environments. Horizontal and vertical collaboration between sensor arrays by means of beam forming, sensor fusion and distributed processing and reasoning enables fine-grained monitoring of the submarine environment and collaborative event detection as well as transmission of the network information to the monitoring stations such as buoys and AUVs.

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Implementation of an underwater acoustic modem with network capability

Husøy¹,

Pettersen²,

Nilsson

et al. 2011

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Abstract-This paper introduces the underwater acoustic modem as implemented within the UAN -Underwater Acoustic Network project. The low power modem has implemented turbo equalization algorithms in addition to variable spread rate direct sequence spread spectrum signaling. The network layer implemented on the modem support automatic network discovery, multi hop routing and support for mobile nodes, and when expanded with a single board computer via serial line it supports IP connectivity end-to-end. Experimental results from sea trials are presented.

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UAN — Underwater Acoustic Network

Caiti

Felisberto

Husøy³

et al. 2011

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Acoustic networks are for underwater what wifi is for terrestrial networks. The ocean is a nearly perfect media for acoustic waves in which regards long range propagation but poses a number of challenges in terms of available bandwidth, Doppler spread and channel fading. These limitations originate in the physical properties of the ocean, namely its anisotropy and boundary interaction which are particularly relevant in coastal waters where acoustic propagation becomes predominantly dependent on seafloor and sea surface properties. The acoustic communication channel is therefore multipath dominated and time and Doppler spread variable. The problem is aggravated when involving moving receivers as for instance when attempting to establish communication with or between moving autonomous underwater vehicles. The EU-funded project UAN -Underwater Acoustic Network aims at conceiving, developing and testing at sea an innovative and operational concept for integrating in a unique communication system submerged, surface and aerial sensors with the objective of protecting off-shore and coastline critical infrastructures. UAN went through various phases, including the development of hardware and software specific components, its testing independently and then in an integrated fashion, both in the lab and at sea. This paper reports on the project concept and vision as well as on the progress of its various development phases and the results obtained herein. At the time of writing, a final project sea trial is being planned and will take place two weeks before the conference so, although here we will concentrate on the progress obtained so far, the presentation at the conference may include additional results depending on the outcome of the sea trial.

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Shallow-water channel sounding for high speed acoustic communication

Rudander¹,

Husøy²,

Orten

et al. 2017

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Thor Husøy

Underwater Acoustic Networking Techniques

CLAM — Collaborative embedded networks for submarine surveillance: An overview

Implementation of an underwater acoustic modem with network capability

UAN — Underwater Acoustic Network

Shallow-water channel sounding for high speed acoustic communication

Contact Info

Product

Resources

About

Thor Husøy

Underwater Acoustic Networking Techniques

CLAM &#x2014; Collaborative embedded networks for submarine surveillance: An overview

Implementation of an underwater acoustic modem with network capability

UAN &#x2014; Underwater Acoustic Network

Shallow-water channel sounding for high speed acoustic communication

Contact Info

Product

Resources

About

CLAM — Collaborative embedded networks for submarine surveillance: An overview

UAN — Underwater Acoustic Network