May 29, 2020 | International, Aerospace
Rome May 28, 2020 - Leonardo's U.S. subsidiary, Selex ES Inc., developer of surveillance, en route navigation, and precision approach and landing systems, was recently awarded a contract by the Federal Aviation Administration (FAA) to continue to build USA's Distance Measuring Equipment (DME). The contract has a one-year base period and two one-year option periods. Along with the previous FAA Selex ES DME contract; Selex ES expects to provide more than 200 DMEs to the National Airspace (NAS). Work will be performed in Overland Park, Kansas.
The scope of the contract includes program management, systems engineering, design and development, system test and evaluation, training, production, Interim Contractor Depot Logistics Support (ICDLS), and site implementation. The DME system will help the FAA increase operational availability and performance of the NAS, supporting common and consistent interface requirements, and providing a modern system that complies with current FAA security standards.
Selex ES is the world's premiere vendor of DMEs, having delivered over 1200 DME systems over the last 25 years to key customers around the globe including FAA, DFS in Germany, Skeyes in Belgium, EANA in Argentina, and ANWS in Taiwan. The company is proud to be a trusted supplier to the FAA and grateful for the continued confidence that FAA has in its team and technology.
About Leonardo and its U.S. subsidiary, Selex ES Inc.
Leonardo is a global player in the high-tech sectors and a major operator worldwide in the Aerospace, Defense and Security sectors. Headquartered in Italy, Leonardo employs over 49,000 people in over 20 countries with offices and industrial plants across five continents. Leonardo's U.S. subsidiary, Selex ES Inc., is headquartered in Overland Park, Kansas, USA and is a leading supplier of surveillance, en route navigation, precision approach, and systems to Air Navigation Service Providers, airport authorities, militaries, government agencies, and commercial and industrial operators. In the heartland of the United States, Selex ES has designed, produced, delivered, and supported ground-based radio navigation aids and surveillance solutions for over 30 years on all seven continents. Selex ES provides complete design, development, production, test, installation, training, integration, maintenance, and customer service.
View source version on Leonardo: https://www.leonardocompany.com/en/press-release-detail/-/detail/28-05-2020-leonardos-u-s-subsidiary-selex-es-inc-awarded-a-contract-for-faas-distance-measuring-equipment-system
September 16, 2024 | International, C4ISR
Early adopters of the Air Force's AI system come from a range of career fields and have used it for a variety of tasks — from content creation to coding.
January 25, 2021 | International, Aerospace
by David Donald - January 20, 2021, 6:53 AM General Atomics Aeronautical Systems Inc. (GA-ASI) has revealed that it has completed the development and testing of a self-contained anti-submarine warfare (ASW) package, the first such equipment for an unmanned aircraft system (UAS). The package comprises podded sonobuoy dispenser systems (SDS) and a sonobuoy management and control system (SMCS). GA-ASI has been studying unmanned ASW capability for some years, demonstrating sonobuoy remote processing capability from an MQ-9A Reaper in 2017. Subsequently an SMCS has been added, and the SDS has been developed. It employs a pneumatic launch system, and each pod can carry up to 10 A-size sonobuoys or 20 G-size buoys. On November 24 last year GA-ASI carried out a trial at the U.S. Navy's Pacific range in which a company-owned MQ-9A Block 5 released seven SSQ-53G Directional Frequency Analysis and Recording (DIFAR) and two SSQ-62F Directional Command Activated Sonobuoy System (DICASS) sonobuoys, and a single SSQ-36B bathythermograph buoy. Using a General Dynamics Mission Systems-Canada UYS-505 processing system the trial successfully tracked an MK-39 expendable mobile ASW training target (EMATT) for three hours, data being relayed by a satcom link to the Laguna flight operations facility at the Yuma Proving Ground in Arizona. The ASW capability is being developed for the SeaGuardian configuration of the MQ-9B SkyGuardian, which can carry up to four SDS pods under its wings. The SeaGuardian is intended to perform as a stand-alone maritime patrol asset or to act with traditional maritime patrol aircraft as part of a manned-unmanned team. A key part of the SeaGuardian mission set is a surveillance radar, and GA-ASI is working with Leonardo to integrate the Seaspray 7500E V2 AESA radar into the UAS's centerline pod. The radar offers a variety of modes, including inverse synthetic aperture radar that works with the automatic identification system (AIS, a form of maritime IFF) to provide accurate identification of detected surface targets. It can spot submarine periscopes and humans in the water during search and rescue operations. A high-definition optical/infrared full-motion video capability is also included. Another option from Leonardo is the SAGE electronic surveillance system. GA-ASI reports that two undisclosed export customers have ordered the SeaGuardian capability, which was included in the recently approved request for up to 18 MQ-9Bs from the United Arab Emirates. In its standard SeaGuardian configuration the MQ-9B has an endurance of more than 18 hours and can mount an eight-hour patrol at a radius of 1,200 nm. Another store that has recently been trialed by GA-ASI is the Legion Pod, in this case, the carrier being the company's jet-powered Avenger remotely piloted aircraft. The Legion Pod, which is carried by F-15 Eagles, features a Lockheed Martin IRST21 infrared search and track sensor in its nose and datalinks to network the sensor and carrier with other platforms. n early January GA-ASI was selected to support the U.S. Air Force's Skyborg Vanguard program that is developing artificial intelligence/machine-learning autonomous capabilities for future combat aircraft. Two company-owned Avengers are being modified with updated links and the Skyborg System Design Agent software to support this activity, which will test the ability of manned aircraft to control the Avengers in flight and to pass critical mission information between them. https://www.ainonline.com/aviation-news/defense/2021-01-20/general-atomics-advances-seaguardian-systems
August 9, 2019 | International, Aerospace, Naval, Land
By: Jen Judson HUNTSVILLE, Ala. —The U.S. military is a few years from launching offensive hypersonic weapons that are currently under development. But building those initial missiles is one thing — manufacturing the weapons in multitude is another issue entirely. “I would say we really need to understand, again, how can we produce precision hardware at scale,” Michael Griffin, the Pentagon's undersecretary of defense for research and engineering, told a group of reporters Aug. 7 at the Space and Missile Defense Symposium in Huntsville, Alabama. “If we talk about ballistic missile defense or hypersonic offense and we talk about proliferating architectures, we need any dozens, many hundreds, maybe thousands of assets,” he added. “This takes us back to the Cold War where at one point we had 30,000 nuclear warheads and missiles to launch them. We haven't produced at that kind of scale since the wall came down.” As hypersonic missiles become a reality, industry is going to have to relearn how to effectively, efficiently and economically produce them, Griffin said. While industry has developed warheads, glide bodies and other components, there is no industrial base equipped to manufacture hypersonic weapons. Things are moving in the right direction when it comes to bringing industry up to speed and preparing for larger-scale manufacturing of missiles, Griffin said. But building these systems is challenging because, for example, hypersonics require a greater degree of thermal protection than what has been required of other weapons in the past, he noted. Building hypersonics is no longer a technical issue or a matter of understanding physics, but rather an issue of understanding the industrial engineering required to produce a larger number. “I'm not sure how much help the government can be there,” he said. “Mass production is not what we do. ... That is going to be an industry problem.” The Army is just weeks away from awarding a contract to a company that will work with the federally funded laboratory that developed a hypersonic glide body to develop manufacturing plans and strategies. Other companies will have a turn as well. The effort is spearheaded by the service's Rapid Capabilities and Critical Technologies Office. Griffin stressed that the weapons manufacturing process needs to be affordable. “Our adversaries have clearly found ways to make them affordable. China has these things now by the thousands. What do we do to learn, once again, how to produce sophisticated things at scale and affordably?” he said. China is able to field new systems every few years, Griffin noted, while the U.S. takes a decade or more to get through a cumbersome acquisition process. “It don't believe that the issues facing the United States aerospace and defense establishment are issues of specific technologies,” he said. “I believe that over the last 30 years ... we've become lost in our processes.” https://www.defensenews.com/digital-show-dailies/smd/2019/08/08/hypersonics-by-the-dozens-us-industry-faces-manufacturing-challenge/