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GPS intelligent buoys

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In this page talks about ( GPS intelligent buoys ) It was sent to us on 25/07/2021 and was presented on 25/07/2021 and the last update on this page on 25/07/2021

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GPS intelligent buoy (GIB) systems may be classified as inverted long-baseline (LBL) acoustic positioning devices where the transducers are installed on GPS-equipped sonobuoys that are either drifting or moored.Thomas, H.G."GIB Buoys: An Interface Between Space and Depths of the Ocean", Proceedings of IEEE Autonomous Underwater Vehicles, Cambridge, MA, USA, pages 181-184, August 1998 GIBs may be used in conjunction with an active underwater device (such as a pinger equipped torpedo), or with a passive acoustic sound source (such as an inert bomb striking the surface of the water). Typically the sound source or impact event is tracked or localized using a time of arrival (TOA) technique.Alcocer, A., Oliveira, P., and Pascoal, A.,"Underwater Acoustic Positioning Systems Based on Buoys with GPS", Proceedings of the Eighth European Conference on Underwater Acoustics, 8th ECUA, Carvoerio, Portugal, 12–15 June 2006 Typically several GIBs are deployed over a given area of operation; with the total number determined by the size of the test area and the accuracy of the results desired. Different methods of GPS positioning may be used for positioning the array of GIBs, with accuracies of cm to meter level in realtime possible.
Buoys are manufactured by the French company ACSA-underwater-GPS (subsidiary of the ALCEN group). Three off-the shelf products are available from the small portable GIB-Lite system to the large torpedo tracking GIB-FT, and including the medium-size, medium-range GIB-Plus system.

History and examples of use

Use of GIBs for underwater tracking and weapon scoring have been in use by the Navy since the early to mid 1990s. Early GIBs were created for broad ocean area weapons testing by modifying conventional Navy sonobuoys with small OEM-grade GPS receivers and deploying them from a helicopter or from P-3 Orion aircraft.Saunders, J., and Cardoza, M. "Preliminary Results from a GPS-Based Portable Impact Location System", Proceedings of the Institute of Navigation’s Satellite Division Meeting, ION GPS-95, Palm Springs, California, 12-15 September, 1995 The GPS data captured by the GIB was modulated over the analog VHF acoustic data stream using frequency-shift keying (FSK). This allows the GPS measurement data to be transmitted and received on legacy VHF sonobuoy receiver equipment. A drifting array of twelve or more GIBs would be deployed in a concentric circular array approximately 7 nm in diameter. Weapon strikes within the array emitted acoustic signatures that were captured by the GIBs and transmitted up to the orbiting aircraft. Post-mission the GPS and acoustic data from the GIBs would be combined to determine an absolute coordinate for the impact location in WGS 84 coordinates.

Example of underwater acoustic-based weapon scoring

thumb400pxleftFigure 1: An array of GIBs positioned around a test area to provide weapon impact
coordinates from weapon testing or training. Upon striking the water, acoustic signatures are captured and processed by each GIB, and relayed to the shipboard or a land based command and control system for realtime processing
thumb50pxrightFigure 2: Photograph of the TARGT GIB
GIB type systems have been developed for a variety of specialized applications. An illustrative use of GIBs for underwater
positioning is the TARGT weapon scoring and training system Kayser, J.R., Cardoza, M.A., et. al., "Weapon Scoring Results from a GPS Acoustic Weapons Test and Training System", Institute of Navigation National Technical Meeting, San Diego, CA, 24-26 January 2005 Cardoza, M.A., Kayser, J.R., & Wade, B. "Offshore Scoring of Precision Guided Munitions", Inside GNSS April 2006, pages 32-39
The system concept (Figure 1) utilizes an array eight to ten GIBs (Figure 2) moored in a 2 km by 2 km array. In the case of the TARGT GIB, the GPS and RF antennas are located on top of the sensor and the hydrophone, or underwater acoustic transducer, is located on the bottom. The device is approximately 6 ft tall and weighs 35 lbs.
Inert weapon releases from military aircraft strike the surface of the water within the array, emitting an acoustic signature
that is captured by each of the GIBs. Each GIB determines the precise time of the received signal and transmits this time to the deployment ship in near real time. A command and control system located on the deployment and recovery ship combines the GPS data and acoustic timing information to triangulate the impact location and determine the exact impact time in near realtime. Several methods may be used, the most common being a time difference of arrival (TDOA) least-squares solution algorithm. Post-mission data processing is performed to further refine the results, with two-dimensional positioning accuracies of 1 to 2 meters and impact timing accuracies of 1-2 milliseconds demonstrated.
Category:Global Positioning System

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