AeroVironment's Global Observer Unmanned Aircraft System Completes Key Ground Tests
UNITED STATES - 25 MAY 2010
Global Observer is the world’s first liquid hydrogen powered unmanned aircraft system (UAS)
MONROVIA, Calif. --- AeroVironment, Inc. (AV) today announced that the first aircraft developed under the Global Observer Joint Capability Technology Demonstration (JCTD) program has successfully completed key ground tests in preparation for flight testing.
The joint Department of Defense, NASA and AV team successfully performed ground vibration, structural and taxi tests at Edwards Air Force Base (EAFB) in California. AV developed and fabricated Aircraft 1 in its dedicated manufacturing facility located in Southern California and shipped it to EAFB in December 2009.
AV is developing the Global Observer unmanned aircraft system (UAS) to be the first to provide robust, cost-effective and persistent communications and surveillance over any location. Six U.S. government agencies have provided more than $120 million in funding for the JCTD program.
“Global Observer is designed to perform above and beyond the capabilities of any other existing aircraft. The unique benefit of this truly unblinking eye will be its ability to watch, listen and relay communications signals flexibly, affordably and without interruption,” said Tim Conver, AV’s chairman and chief executive officer. “The need for affordable and seamless persistence is great, and we look forward to demonstrating this important capability during the final phase of the Global Observer JCTD program.”
Each aircraft in a Global Observer system is designed to fly at an altitude of between 55,000 and 65,000 feet for 5 to 7 days. In addition to flying above weather and above other conventional airplanes, operation in this altitude range means that sensor payloads on the aircraft will be able to view a circular area on the surface of the earth up to 600 miles in diameter, equivalent to more than 280,000 square miles of coverage. Equipped with payloads that are readily available today, two Global Observer aircraft would alternate coverage over any location on the globe every 5 to 7 days, making this the first solution to provide customers with practical, seamless coverage, wherever and whenever required.
The joint Department of Defense, NASA and AV team based at EAFB completed aircraft weight and balance measurements and conducted a series of Ground Vibration and Structural Modes Interaction Tests in February. During March and April the team performed aircraft system tests to validate the aircraft hardware and software readiness, and to support ground and flight crew training in preparation for the initial flight series.
Most recently, taxi tests were conducted to confirm autonomous propulsion, data link operation, steering and braking. A final Flight Readiness Review will be conducted to formally review and approve the initiation of flight testing. Initial flight testing will consist of low-altitude battery-powered flights at EAFB to evaluate the aircraft's airworthiness and handling qualities.
Communications relay and intelligence, surveillance and reconnaissance (ISR) payloads are being prepared for installation into the aircraft. Once development flight tests have been completed, payloads will be installed and joint operational utility flight demonstrations will be performed at EAFB.
Global Observer is designed to address an urgent national security need for a persistent stratospheric platform and to offer a means to satisfy numerous high value civil and commercial applications. The system is intended to provide mission capabilities that include robust observation over areas with little or no existing coverage, persistent communications relay, the ability to relocate the system as required by theater commanders, dedicated communications support to other UAS and tactical on-station weather monitoring and data support.
Final assembly of Aircraft 2 is proceeding at the AV Global Observer manufacturing facility.
AeroVironment is developing Global Observer to operate as a “stratospheric geosynchronous satellite system” with regional coverage and no signal delay. Two Global Observer aircraft, each flying for up to a week at a time, will alternate coverage over any area on the earth, providing a seamless, persistent platform for high value missions such as communications relay, remote sensing, long-term surveillance and border patrol. Offering greater flexibility than a satellite and significantly longer duration than conventional manned and unmanned aircraft, Global Observer is designed to provide critical new capabilities in a reliable and more affordable manner, all while consuming no fossil fuels and emitting no carbon emissions.
Global Observer: Stratospheric Persistent UAS:
AeroVironment is developing the Global Observer unmanned aircraft system (UAS) to be the first to provide robust, cost-effective and persistent communications and surveillance over any location on the globe, establishing an entirely new category of UAS. Global Observer’s unique combination of both extreme flight duration and stratospheric operating altitude is designed to deliver advantages in cost, capacity, coverage, flexibility, and reliability that make it a compelling complement to existing satellite, aerial and terrestrial assets.
Missions: Persistent Communications & Remote Sensing
Features: Stratospheric Global Persistence (all altitudes)
Endurance/Range: Up to 1 week
Payload: Up to 400 lbs. for GO-1
Operating Altitude: 65,000 feet
Propulsion System: Liquid hydrogen powered
Global Observer is designed to address an urgent national security need for a persistent stratospheric platform and provides a means to satisfy numerous high value civil and commercial applications. Mission applications include communications relay & remote sensing payloads for military or commercial customers, as follows:
•Persistent, global, stratospheric loitering capability for defense and homeland security missions.
•Low-cost, rapidly deployable telecommunications infrastructure and GPS augmentation.
•Hurricane/storm tracking, weather monitoring, wildfire detection, and sustained support for relief operations.
•Aerial imaging/mapping for commercial and environmental monitoring, agriculture crop management and harvesting optimization.
Multiple communications and remote sensing applications have already been demonstrated from this operating position, including high definition broadcast (HDTV) video, and third generation (3G) mobile voice, video and data using an off-the-shelf mobile handset.
Source: AeroVironment, Inc.
UNITED STATES - 25 MAY 2010
Global Observer is the world’s first liquid hydrogen powered unmanned aircraft system (UAS)
MONROVIA, Calif. --- AeroVironment, Inc. (AV) today announced that the first aircraft developed under the Global Observer Joint Capability Technology Demonstration (JCTD) program has successfully completed key ground tests in preparation for flight testing.
The joint Department of Defense, NASA and AV team successfully performed ground vibration, structural and taxi tests at Edwards Air Force Base (EAFB) in California. AV developed and fabricated Aircraft 1 in its dedicated manufacturing facility located in Southern California and shipped it to EAFB in December 2009.
AV is developing the Global Observer unmanned aircraft system (UAS) to be the first to provide robust, cost-effective and persistent communications and surveillance over any location. Six U.S. government agencies have provided more than $120 million in funding for the JCTD program.
“Global Observer is designed to perform above and beyond the capabilities of any other existing aircraft. The unique benefit of this truly unblinking eye will be its ability to watch, listen and relay communications signals flexibly, affordably and without interruption,” said Tim Conver, AV’s chairman and chief executive officer. “The need for affordable and seamless persistence is great, and we look forward to demonstrating this important capability during the final phase of the Global Observer JCTD program.”
Each aircraft in a Global Observer system is designed to fly at an altitude of between 55,000 and 65,000 feet for 5 to 7 days. In addition to flying above weather and above other conventional airplanes, operation in this altitude range means that sensor payloads on the aircraft will be able to view a circular area on the surface of the earth up to 600 miles in diameter, equivalent to more than 280,000 square miles of coverage. Equipped with payloads that are readily available today, two Global Observer aircraft would alternate coverage over any location on the globe every 5 to 7 days, making this the first solution to provide customers with practical, seamless coverage, wherever and whenever required.
The joint Department of Defense, NASA and AV team based at EAFB completed aircraft weight and balance measurements and conducted a series of Ground Vibration and Structural Modes Interaction Tests in February. During March and April the team performed aircraft system tests to validate the aircraft hardware and software readiness, and to support ground and flight crew training in preparation for the initial flight series.
Most recently, taxi tests were conducted to confirm autonomous propulsion, data link operation, steering and braking. A final Flight Readiness Review will be conducted to formally review and approve the initiation of flight testing. Initial flight testing will consist of low-altitude battery-powered flights at EAFB to evaluate the aircraft's airworthiness and handling qualities.
Communications relay and intelligence, surveillance and reconnaissance (ISR) payloads are being prepared for installation into the aircraft. Once development flight tests have been completed, payloads will be installed and joint operational utility flight demonstrations will be performed at EAFB.
Global Observer is designed to address an urgent national security need for a persistent stratospheric platform and to offer a means to satisfy numerous high value civil and commercial applications. The system is intended to provide mission capabilities that include robust observation over areas with little or no existing coverage, persistent communications relay, the ability to relocate the system as required by theater commanders, dedicated communications support to other UAS and tactical on-station weather monitoring and data support.
Final assembly of Aircraft 2 is proceeding at the AV Global Observer manufacturing facility.
AeroVironment is developing Global Observer to operate as a “stratospheric geosynchronous satellite system” with regional coverage and no signal delay. Two Global Observer aircraft, each flying for up to a week at a time, will alternate coverage over any area on the earth, providing a seamless, persistent platform for high value missions such as communications relay, remote sensing, long-term surveillance and border patrol. Offering greater flexibility than a satellite and significantly longer duration than conventional manned and unmanned aircraft, Global Observer is designed to provide critical new capabilities in a reliable and more affordable manner, all while consuming no fossil fuels and emitting no carbon emissions.
Global Observer: Stratospheric Persistent UAS:
AeroVironment is developing the Global Observer unmanned aircraft system (UAS) to be the first to provide robust, cost-effective and persistent communications and surveillance over any location on the globe, establishing an entirely new category of UAS. Global Observer’s unique combination of both extreme flight duration and stratospheric operating altitude is designed to deliver advantages in cost, capacity, coverage, flexibility, and reliability that make it a compelling complement to existing satellite, aerial and terrestrial assets.
Missions: Persistent Communications & Remote Sensing
Features: Stratospheric Global Persistence (all altitudes)
Endurance/Range: Up to 1 week
Payload: Up to 400 lbs. for GO-1
Operating Altitude: 65,000 feet
Propulsion System: Liquid hydrogen powered
Global Observer is designed to address an urgent national security need for a persistent stratospheric platform and provides a means to satisfy numerous high value civil and commercial applications. Mission applications include communications relay & remote sensing payloads for military or commercial customers, as follows:
•Persistent, global, stratospheric loitering capability for defense and homeland security missions.
•Low-cost, rapidly deployable telecommunications infrastructure and GPS augmentation.
•Hurricane/storm tracking, weather monitoring, wildfire detection, and sustained support for relief operations.
•Aerial imaging/mapping for commercial and environmental monitoring, agriculture crop management and harvesting optimization.
Multiple communications and remote sensing applications have already been demonstrated from this operating position, including high definition broadcast (HDTV) video, and third generation (3G) mobile voice, video and data using an off-the-shelf mobile handset.
Source: AeroVironment, Inc.
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