Today, most military platforms depend on Global Navigation Satellite Systems (GNSS). Jamming GNSS signals may cause many platforms to fail their mission. For this reason, development of GNSS anti-jamming systems and sustaining the performance of the military platforms in jamming environments is a crucial need.
AGNOSIS Anti-Jamming GNSS includes CRPA antenna with 4 or 8 antenna array configuration and 1 signal processing unit with multi receive channels. Signals acquired by CRPA are digitized with high dynamic range receivers and processed by a signal processing unit. Jamming signals are filtered by using signal processing techniques, and the original signal without the jamming signal is reconstructed again for delivering to standard GNSS receivers.
The advanced system has the same form-fit mechanical interfaces as a standard 15″ EO/IR gimbal, enabling the two capabilities to be swapped out as required on smaller UAVs that cannot carry both. On larger platforms, the two can work together in a “slew-to-cue” configuration for enhanced effectiveness in wide-area surveillance.
MILSAR is tuned for the operations of unmanned aerial vehicles (UAVs) along with its easy installation feature. This high technology radar system has the same form-fit mechanical interfaces as standardized 15 inches EO/IR sensor turret to be readily replaced with an EO/IR sensor.
MILSAR detects and tracks potential targets either low speed small size or fast moving objects even in adverse weather and low visibility conditions including cloud and fog. SAR features comes with Stripmap and Spotlight submodes which enable high resolution, long range imaging in low visibility, over-the-cloud surveillance operations in day and night.
Radar plots and tracks are displayed on a geo-referenced plan-position display or can be overlaid on digital map. Selected targets’s range-bearing and course-speed parameters are instantly displayed on operator’s console.
The advanced system has the same form-fit mechanical interfaces as a standard 15″ EO/IR gimbal, enabling the two capabilities to be swapped out as required on smaller UAVs that cannot carry both. On larger platforms, the two can work together in a “slew-to-cue” configuration for enhanced effectiveness in wide-area surveillance.