Improving the Water Column Representation

The representation of the undersea environment has often been ignored, or at best static, or precalculated in distributed simulation. This paper details the efforts of a multidisciplinary team who have implemented a dynamic ocean model and sensor response in the Joint Semi-Automated Forces (JSAF) ar...

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Hauptverfasser:	Maassel, Paul W, Schaffer, Richard, Cullen, Sean, Stueve, Gerry, Scannell, Chris, Collins, Joseph, Kim, Nicholas
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Sprache:	eng
Schlagworte:	Computer Programming and Software COMPUTERIZED SIMULATION LITTORAL ZONES OCEAN ENVIRONMENTS OCEAN MODELS Physical and Dynamic Oceanography SHALLOW WATER SONAR Undersea and Antisubmarine Warfare UNDERWATER ACOUSTICS WATER COLUMNS
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creator	Maassel, Paul W Schaffer, Richard Cullen, Sean Stueve, Gerry Scannell, Chris Collins, Joseph Kim, Nicholas
description	The representation of the undersea environment has often been ignored, or at best static, or precalculated in distributed simulation. This paper details the efforts of a multidisciplinary team who have implemented a dynamic ocean model and sensor response in the Joint Semi-Automated Forces (JSAF) architecture. A variant of the Princeton Ocean Model was run off the North Carolina coast to provide the dynamic environment. The Shallow Water Acoustic Toolset (PC-SWAT) that modeled the AQS-14 sonar solved the sonar equation. A CORBA interface to JSAF was developed to replace the pre-calculated look-up tables with real-time sensor information. This system was demonstrated in April 2000 at the Naval Research laboratory and will be used in the Naval War College's Fleet Battle Experiment-Hotel in August 2000. Prepared in cooperation with Lockheed Martin Information Systems, Burlington, MA, and HydroQual, Inc., Mahwah, NJ. Prepared in collaboration with Naval Research Laboratory, Washington, DC. The original document contains color images.
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This paper details the efforts of a multidisciplinary team who have implemented a dynamic ocean model and sensor response in the Joint Semi-Automated Forces (JSAF) architecture. A variant of the Princeton Ocean Model was run off the North Carolina coast to provide the dynamic environment. The Shallow Water Acoustic Toolset (PC-SWAT) that modeled the AQS-14 sonar solved the sonar equation. A CORBA interface to JSAF was developed to replace the pre-calculated look-up tables with real-time sensor information. This system was demonstrated in April 2000 at the Naval Research laboratory and will be used in the Naval War College's Fleet Battle Experiment-Hotel in August 2000. Prepared in cooperation with Lockheed Martin Information Systems, Burlington, MA, and HydroQual, Inc., Mahwah, NJ. Prepared in collaboration with Naval Research Laboratory, Washington, DC. 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subjects	Computer Programming and Software COMPUTERIZED SIMULATION LITTORAL ZONES OCEAN ENVIRONMENTS OCEAN MODELS Physical and Dynamic Oceanography SHALLOW WATER SONAR Undersea and Antisubmarine Warfare UNDERWATER ACOUSTICS WATER COLUMNS
title	Improving the Water Column Representation
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