UNITED STATES - 29 MAY 2009
HANSCOM U.S. AIR FORCE BASE, Mass --- Equipping warfighters with the technology to detect moving targets in combat gained momentum when Electronic Systems Center officials here, in concert with prime contractors and other organizations, recently completed a key flight milestone for the Multiplatform Radar Technology Insertion Program.
"At this point, we're delivering on the promise of advanced radar capability for the Global Hawk with completion of GMTI and SAR modes," said Col. Jim Shaw, commander of the 851st Electronic Systems Group, which is leading the effort. "This is a capability that the warfighter needs in the overseas theater today," he said.
Radar system level performance verification testing on the advanced electronically-scanned array radar system verified performance of the Synthetic Aperture Radar, or SAR, and Ground Moving Target Indicator, or GMTI, modes. SAR imagery includes collection of high-resolution spot images, while GMTI focuses on moving ground targets. The testing was conducted on a Proteus test aircraft.
"The sensor performed very well on SAR, and clearly exceeded warfighter requirements in the GMTI modes," the colonel said.
The testing included 186 flights with 1,063 flight hours on Proteus. Of those, 64 flights and 376 flight hours were needed to complete the testing, referred to as RSLPV, after a focus on calibration issues in late August and early September 2008. Program managers hope to incorporate the sensor onto the first production Block 40 Global Hawk.
The Global Hawk is a high-altitude, long-endurance unmanned aircraft system with an integrated sensor suite that provides intelligence, surveillance and reconnaissance capability worldwide. Its mission is to provide a broad spectrum of ISR collection capability to support joint combatant forces in worldwide peacetime, contingency and wartime operations. The Global Hawk complements manned and space reconnaissance systems by providing near-real-time coverage using imagery intelligence sensors.
The sensor brings with it the capability to detect targets -- either in air, land or sea -- and then establish a communications link. This allows U.S. Air Force officials to conduct ground surveillance and track things like suspicious vehicles, troop movement and other potential threats.
"The war we're fighting in Iraq, and particularly Afghanistan, requires us to find the moving targets and activity in the combat theater," Colonel Shaw said.
The testing included examining software, controlling and operating the radars and ensuring the different modes were optimized to run on the developed hardware. Flights were also completed with no mishaps and little down-time, according to the colonel.
Colonel Shaw attributed reaching this milestone to the hard work and dedication of a combined industry and government team.
"I'm impressed with the technical capabilities that the contractor has to offer, as well as the strength of our ESC team," the colonel said. "There were a lot of late nights and long hours involved in delivering this capability."
Mode development is slated to continue, along with additional focus on issues detected during government testing. The sensor will also undergo structural modification and re-calibration, with plans to turn it over to Global Hawk Air Force 18 -- the service's Block 40 test bed.
A Proteus aircraft flies over Southern California carrying the Global Hawk variant of the new Multiplatform Radar Technology Insertion Program radar.
U.S. Air Force Global Hawk UAV Block 10 and Block 20
HANSCOM U.S. AIR FORCE BASE, Mass --- Equipping warfighters with the technology to detect moving targets in combat gained momentum when Electronic Systems Center officials here, in concert with prime contractors and other organizations, recently completed a key flight milestone for the Multiplatform Radar Technology Insertion Program.
"At this point, we're delivering on the promise of advanced radar capability for the Global Hawk with completion of GMTI and SAR modes," said Col. Jim Shaw, commander of the 851st Electronic Systems Group, which is leading the effort. "This is a capability that the warfighter needs in the overseas theater today," he said.
Radar system level performance verification testing on the advanced electronically-scanned array radar system verified performance of the Synthetic Aperture Radar, or SAR, and Ground Moving Target Indicator, or GMTI, modes. SAR imagery includes collection of high-resolution spot images, while GMTI focuses on moving ground targets. The testing was conducted on a Proteus test aircraft.
"The sensor performed very well on SAR, and clearly exceeded warfighter requirements in the GMTI modes," the colonel said.
The testing included 186 flights with 1,063 flight hours on Proteus. Of those, 64 flights and 376 flight hours were needed to complete the testing, referred to as RSLPV, after a focus on calibration issues in late August and early September 2008. Program managers hope to incorporate the sensor onto the first production Block 40 Global Hawk.
The Global Hawk is a high-altitude, long-endurance unmanned aircraft system with an integrated sensor suite that provides intelligence, surveillance and reconnaissance capability worldwide. Its mission is to provide a broad spectrum of ISR collection capability to support joint combatant forces in worldwide peacetime, contingency and wartime operations. The Global Hawk complements manned and space reconnaissance systems by providing near-real-time coverage using imagery intelligence sensors.
The sensor brings with it the capability to detect targets -- either in air, land or sea -- and then establish a communications link. This allows U.S. Air Force officials to conduct ground surveillance and track things like suspicious vehicles, troop movement and other potential threats.
"The war we're fighting in Iraq, and particularly Afghanistan, requires us to find the moving targets and activity in the combat theater," Colonel Shaw said.
The testing included examining software, controlling and operating the radars and ensuring the different modes were optimized to run on the developed hardware. Flights were also completed with no mishaps and little down-time, according to the colonel.
Colonel Shaw attributed reaching this milestone to the hard work and dedication of a combined industry and government team.
"I'm impressed with the technical capabilities that the contractor has to offer, as well as the strength of our ESC team," the colonel said. "There were a lot of late nights and long hours involved in delivering this capability."
Mode development is slated to continue, along with additional focus on issues detected during government testing. The sensor will also undergo structural modification and re-calibration, with plans to turn it over to Global Hawk Air Force 18 -- the service's Block 40 test bed.
A Proteus aircraft flies over Southern California carrying the Global Hawk variant of the new Multiplatform Radar Technology Insertion Program radar.
U.S. Air Force Global Hawk UAV Block 10 and Block 20