22 août 2023 | International, Aérospatial
Netherlands Increases Order of MQ-9A from GA-ASI
The first four MQ-9A Block 5 Reapers and associated Ground Control Stations were delivered to the RNLAF in 2022
6 août 2020 | International, Aérospatial
The Air Force’s experimental navigation satellite cleared for fabrication
WASHINGTON - The U.S. Air Force has completed critical design review of an experimental navigation satellite, clearing the way for fabrication to begin and keeping the launch on track for 2022.
The Air Force Research Laboratory's Navigation Technology Satellite 3 (NTS-3) is one of the Air Force's first Vanguard programs — platforms that can delivers remarkable new capabilities to the war fighter. NTS-3 is being developed to demonstrate new positioning, navigation and timing (PNT) technologies that will inform how future GPS satellites work. AFRL plans to operate the satellite in geosynchronous orbit for one year to experiment with new PNT signals and test new architectures. Beyond the space-based test vehicle itself, NTS-3 will also demonstrate new ground-based command and control as well as new software-defined radios.
And, once on orbit, NTS-3 could provide immediate support to the war fighter. The experimental satellite will augment the GPS constellation from geosynchronous orbit, providing a geographically focused signal.
“The NTS-3 Vanguard is an experimental, end-to-end demonstration of agile, resilient space-based positioning, navigation, and timing,” Arlen Biersgreen, the NTS-3 program manager, said in a statement. “It has the potential for game-changing advancements to the way the Air Force provides these critical capabilities to war fighters across the Department of Defense.”
L3Harris is the prime contractor on NTS-3, and was awarded an $84 million contract for the experimental satellite in 2018. With the critical design review complete, the company can now move forward with fabrication, demonstration and testing. The NTS-3 contract includes a follow-on option for production of an entire constellation, if the Air Force chooses to exercise it.
“Collaboration with our customers has enabled us to move rapidly through important milestones to design this experimental satellite,” said Ed Zoiss, president of space and airborne systems at L3Harris. “Our goal is to deliver new signals to support rapidly evolving warfighter missions.”
Due to scheduling, NTS-3 technology is unlikely to be included on the any of the GPS III satellites in production, but it will likely inform aspects of the subsequent GPS IIIF satellites which are set to go on orbit in the late 2020s. L3Harris is developing the payloads for those satellites as well.
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4 janvier 2024 | International, Terrestre
Russian air defences down 10 targets over Belgorod, two injured
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18 novembre 2019 | International, Terrestre
Here’s who will build the US Army’s heavy common robot
By: Jen Judson WASHINGTON — The U.S. Army has chosen FLIR's Kobra robot to serve as its heavy version of the Common Robotic System that will be used for explosive ordnance disposal and other heavy-duty jobs. The production contract will run for a period of five years and could be worth up to $109 million. The Army wanted its Common Robotic System-Heavy, or CRS-H, to weigh up to 700 pounds and to carry a variety of sensors and payloads to support missions. “The Kobra [unmanned ground vehicle] delivers unmatched strength, power and payload support in an easy-to-operate robot package,” according to a FLIR statement sent to Defense News. Kobra has a lift capacity of 330 pounds and can stretch up to eleven-and-a-half feet to get at difficult-to-reach places, but it is also still nimble enough to climb jersey barriers and fit into the back of a standard utility vehicle, according to FLIR. FLIR's legacy business, Endeavor Robotics, won a contract in 2017 to provide the Army with a medium-sized UGV — the Man Transportable Robotic System Increment II. FLIR is delivering the Centaur UGV for the program. FLIR bought Endeavor Robotics in February, an acquisition that made sense because FLIR's camera and sensors — its bread and butter — have been used on countless manned and unmanned vehicles like those developed by the Massachusetts-based robotics company. FLIR also acquired Prox Dynamics in 2016, the Norwegian maker of the tiny micro-drone — the Black Hornet — that is now used as the Army's soldier borne sensor. Endeavor also competed for the CRS-Individual system — a man-packable robot that is less than 25 pounds — but lost to fellow Massachusetts-based robotics company QinetiQ North America in March. For the CRS-H program, FLIR beat out QinetiQ. Kobra is also participating in a Defense Advanced Research Projects Agency effort to build a system-of-systems solution that can operate in subterranean environments. The company's solution consists of the Kobra robot that will enter subterranean environments carrying radio repeaters —based on the company's small, throwable FirstLook robots — and drop them off along the way to continue connectivity as it travels deeper underground. The system will also carry a four-legged robot supplied from Ghost Robotics to explore more rugged and difficult terrain as well as a quadcopter that will investigate vertical shafts and other hard to reach places. The winner of the challenge is expected to receive $2 million in 2021. The CRS-I and CRS-H programs are part of a larger Army program to streamline its robotics inventory. By necessity, during the wars in Iraq and Afghanistan, the Army clamored to buy UGVs that could help provide a level of standoff between soldiers and the dangers faced on the battlefield, mostly improvised explosive devices. The Army procured roughly 7,000 UGVs and ended up with a petting zoo of robots from Talons to PacBots to Dragon Runners, to name a few. The service had roughly nine variants of robots used for explosive ordnance disposal, two robots for engineering battalions to conduct route clearance, two for Chemical, Biological, Radiological and Nuclear (CBRN) tasks and three for contingency and global response forces. The Army's way forward uses just a few common platforms where systems and sensors can be swapped out easily for different missions and which are all controlled using one universal controller. It's been the season for major headway in Army robotics programs across the board. The service is also underway with development of robotic combat vehicles in light, medium and heavy categories. The Army invited four teams to compete to build prototypes for its future light RCV last month: A Textron and Howe & Howe team, a team of QinetiQ and Pratt & Miller, HDT Global and Oshkosh Defense. And three teams were picked earlier this month to move on in the Army's competition for a medium-sized RCV: General Dynamics Land Systems, QinetiQ and the Textron and Howe & Howe team. The Army also awarded, at the end of last month, a contract to GDLS to provide the Squad Multipurpose Equipment Transport (SMET) unmanned vehicle. GDLS offered up its Multi-Utility Tactical Transport — or MUTT — in that competition. https://www.defensenews.com/land/2019/11/15/heres-who-just-won-a-contract-to-build-the-armys-heavy-robot/