FOR IMMEDIATE RELEASE
Aug 24, 2010
Small Vessel Detection and Imaging Successfully Demonstrated During Navy Exercise
AUVSI NORTH AMERICA – 24 August 2010 – General Atomics Aeronautical Systems, Inc. (GA-ASI), a leading manufacturer of Unmanned Aircraft Systems (UAS), tactical reconnaissance radars, and surveillance systems, today announced that it has successfully demonstrated a new Maritime Wide Area Search (MWAS) mode planned for the proven Lynx® Synthetic Aperture Radar/Ground Moving Target Indicator (SAR/GMTI).
Capable of a 30-degree per second scan rate and optimizing algorithms for detecting and imaging small vessels, including Self-Propelled Semi-Submersible (SPSS) vessels, the new MWAS mode was successfully demonstrated at the U.S. Fleet Forces Command's (USFF’s) Trident Warrior 2010 (TW10) experiment held off the coast of Southern California in early June. The Trident Warrior experiments are the U.S. Navy’s premier FORCEnet Sea Trial experiments and are designed to provide “speed to capability” and to develop supporting tactics, techniques, and procedures.
“Maritime situational awareness is an emerging need,” said Linden Blue, president, Reconnaissance Systems Group, General Atomics Aeronautical Systems Inc. “Our new maritime mode provides the operator with wide-area coverage and the ability to cross-cue the EO/IR camera automatically to an object of interest.”
In coordination with the Navy Research Laboratory (NRL) and the TW10 experiment leads, GA-ASI conducted four flights involving small vessel detection and tracking tests. Through the dense cloud cover encountered during the morning flight tests, the Lynx radar was able to detect the SPSS crafts successfully at significant stand-off ranges and provide very accurate intercept vectors to other aircraft and sea-based vessels participating in the exercise. Successful demonstrations of the automatic cross-cuing function of the Lynx radar to the EO/IR camera were conducted during the afternoon tests when the clouds had dispersed enough to make visual observation of the SPSS possible.
“These exercises allowed the community to witness the new Lynx maritime mode under operational conditions and to evaluate its contribution to a maritime CONOPS [Concept of Operations] against challenging semi-submersible threats,” added Blue. “Success of the mission, validation of the CONOPS, and the performance of the Lynx radar indicates that the maritime capability is ready to transition to the military and border patrol users.”
The MWAS mode, along with a three-time increase in the scan rate of GMTI mode and a new SAR-aided alignment mode, are being incorporated into the software baselines for Lynx radars deployed by U.S. customers.
About GA-ASI
General Atomics Aeronautical Systems, Inc., an affiliate of General Atomics, delivers situational awareness by providing unmanned aircraft, radar, and electro-optic solutions for military and commercial applications worldwide. The company’s Aircraft Systems Group is a leading designer and manufacturer of proven, reliable unmanned aircraft systems, including Predator® A, Predator B, Sky Warrior®, and the new Predator C Avenger®. It also manufactures a variety of solid-state digital Ground Control Stations (GCSs), including the next-generation Advanced Cockpit GCS, and provides pilot training and support services for UAS field operations. The Reconnaissance Systems Group designs, manufactures, and integrates the Lynx SAR/GMTI radar and sophisticated Claw® sensor control and image analysis software into both manned and unmanned aircraft. It also integrates other sensor and communication equipment into manned ISR aircraft and develops emerging technologies in solid-state lasers, electro-optic sensors, and ultra-wideband data links for government applications. For more information, please visit www.ga-asi.com.
Lynx, Predator, Sky Warrior, and Avenger are registered trademarks of General Atomics Aeronautical Systems, Inc.
For more information contact:
Kimberly Kasitz
Public Relations Manager
General Atomics Aeronautical Systems, Inc.
+1.858.312.2294