Development of the Method for Deployment of an Autonomous Source for Year-Round Acoustic Monitoring of the Arctic Ocean, the Acoustic Complex for Horizontal Location of an Autonomous Source, and Communication of the Navigation Data

In acoustic thermometry of the ocean, interpretation of the results of the measurements implies that all distances between sources and receivers in the thermometry system are fixed during an experiment. This means that the acoustic sources and receivers should be firmly installed on the bottom. Howe...

Full description

Bibliographic Details
Main Authors: Doroshenko, A. A., Budnev, N. M., Panfilov, A. I., Tchensky, A. G., Morozov, A. K.
Other Authors: MARINE SCIENCE INTERNATIONAL CORP
Format: Text
Language:English
Published: 1996
Subjects:
Physical and Dynamic Oceanography
Acoustic Detection and Detectors
*SOUND TRANSMISSION
*UNDERWATER SOUND SIGNALS
*ARCTIC OCEAN
MARINE CLIMATOLOGY
UNDERWATER ACOUSTICS
UNDERWATER NAVIGATION
DEEP WATER
OCEAN BASINS
THERMOMETERS
ACOUSTIC DETECTORS
MOORING BUOYS
UNDERWATER SOUND GENERATORS
SONAR BEACONS
THERMOMETRY
ACOUS(ARCTIC CLIMATE OBSERVATION USING UNDERWATER SOUND)
ACOUSTIC POSITIONING SYSTEMS
SERDP COLLECTION
SERDP(STRATEGIC ENVIRONMENTAL RESEARCH AND DEVELOPMENT PROGRAM)
Arctic
Arctic Ocean
Arctic Basin
Online Access:http://www.dtic.mil/docs/citations/ADA348983
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA348983
Description
Summary:In acoustic thermometry of the ocean, interpretation of the results of the measurements implies that all distances between sources and receivers in the thermometry system are fixed during an experiment. This means that the acoustic sources and receivers should be firmly installed on the bottom. However, it is not always possible to deploy such stable systems in the ocean, especially in deep water. One of the acoustic emitting complexes for the ACOUS (Arctic Climate Observation using Underwater Sound) experiment is planned for deployment in the deep-water Central Arctic Basin. Arctic conditions make it difficult to deploy a long-baseline system, since the ice drift cannot be controlled and the navigation beacons cannot be accurately deployed at the determined points on the bottom around the main mooring system. In these conditions, the beacons should be self-locating and the system construction adapted for fast deployment. Moreover, the necessary resolution of the thermometry system in the ACOUS experiment requires positioning accuracy better than that in the available commercial devices. This paper discusses these requirements of the acoustic positioning system as well as addressing the issue of communication between the complex and the shore.

Similar Items