8141 Datasheet, PDF(1/2 Page) Sonardyne sound in depth – Tsunami Detection System

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8141 Datasheet, PDF (1/2 Pages) Sonardyne sound in depth – Tsunami Detection System

Datasheet

Tsunami Detection System

Sonardyne UK (Head Office)

T. +44 (0) 1252 872288

F. +44 (0) 1252 876100

E. sales@sonardyne.com

www.sonardyne.com

Description

The Tsunami Detection System can

be deployed on the seabed in the

deep ocean from where it will

monitor the pressure of the water

above it. A tsunami wave in deep

water creates a small but measurable

change in pressure that will be

maintained for as long as twenty

minutes. By monitoring any such

changes, the subsea detector will

trigger an alarm that sends an

acoustic warning message to a buoy-

mounted transceiver on the surface.

The transceiver, in turn, relays the

message via a satellite data link to a

control centre.

Sonardyneâs tsunami system is based

on the companyâs successful Compatt

5 seabed acoustic transponder. It

uses the latest Widebandâ¢ digital

acoustic technology to provide robust

through water communications in

difficult acoustic conditions.

The Compatt 5 may be deployed in

water up to 7,000 metres and it is

fitted with a sensor that continuously

monitors water pressure, saving data

every fifteen minutes. Because a

reliable early warning of a tsunami

can only be obtained close to the

sea floor, the Compatt provides the

essential means of sending these

readings up to the surface.

Every hour the Compatt converts the

pressure readings into signals which

it transmits acoustically to the buoy

on the surface. The satellite

communications transceiver on the

buoy then automatically forwards the

pressure readings to the tsunami

monitoring agency ashore. The

system can also receive data from

the central control so that revised

monitoring parameters can be

downloaded to the Compatt if

required.

The Compatt is programmed to

anticipate continual changes in the

pressure of the water as these can be

caused by influences such as tides,

weather conditions and temperature.

Because such changes can be

predicted, a variation of as little as

3cm from the expected pattern will

switch the device into Tsunami Alert

Mode. This will cause the Compatt to

immediately transmit any data that

has been saved during the past hour

to the surface. It will then take

pressure readings every fifteen

seconds which it will immediately

send up to the buoy for transmission

by satellite to the monitoring station.

This means that the first warning of a

tsunami, caused by a small variation

in water pressure on the seabed

thousands of miles from shore, can

be in the office of the monitoring

organisation within minutes.

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