Arlington, Virginia – The U.S. Army awarded Airbus (OTC: EADSY) a $27.8 million contract to upgrade the Army National Guard Security & Support Battalion Mission Equipment Package (MEP).
Upgrades to the MEP expand the UH-72A Lakota’s capabilities to conduct day and night operations by providing an advanced moving map, enhanced digital interfaces, new monitors, an airborne mission management system and other system improvements.
MEP equipped UH-72As are specifically designed to execute National Guard operations across a range of missions including domestic operations, counter-drug and border security.
The Army contract will retrofit up to 50 Security & Support Battalion aircraft deployed throughout the United States. There are currently 107 in the fleet.
These aircraft will be modified at Airbus’ Columbus, Mississippi helicopter production facility, where more than 480 UH-72A and UH-72B Lakota, based on the H145, have been delivered to the US Army since 2006.
The contract will be managed by Airbus U.S. Space & Defense. Operating under a Special Security Agreement, Airbus U.S. Space & Defense, Inc. offers world-class satellite, laser communication, rotor, and fixed wing solutions to meet the most complex U.S. defense, security, space, and intelligence requirements.
Mitsubishi Heavy Industries Machine Tool Co., Ltd., a group company of Mitsubishi Heavy Industries, Ltd. (MHI) based in Ritto, Shiga Prefecture, will offer expanded services in metal 3D printing services commencing on July 15, including prototype production and contract production by metal 3D (three-dimensional) printers applying laser-based Metal Additive Manufacturing (AM) technologies. In addition to its previously offered Directed Energy Deposition (DED) type metal 3D printers for large-scale parts, the Company will newly add services using binder jetting (BJT) metal 3D printers for small-scale parts. The expanded service lineup will enable manufacture of a full range of metal parts, from small components of 1mm size to ultra-large-scale parts exceeding 1 meter.
The addition to MHI Machine Tool’s lineup is the DMP2500 metal 3D printer developed by Digital Metal, a group company of Hogänäs of Sweden. The DMP2500’s BJT technology not only enables extremely precise manufacturing but also is engineered especially for high-volume production. Currently, MHI Machine Tool has provided metal printing services applying unique DED technology of “LAMDA” AM systems; now, with the introduction of a different type of printer, the Company can respond to a broad range of metal 3D print needs and propose and provide the optimal manufacturing method and equipment for each parts.
MHI Machine Tool concluded a contract with Digital Metal in July 2020 on marketing its DMP2500 and other metal 3D printers in Japan. By adding these BJT type systems to its own sales lineup, MHI Machine Tool will be in a position to offer a broad portfolio of not only sales but also after-sales services.
While metal 3D printers are receiving attention for their innovative advances to production processes, they also present challenges relating to the difficulty of their production and quality assurance, etc. With the new expansion of services, MHI Machine Tool will focus on providing solutions relating to additive manufacturing, including provision of related expertise, to accelerate early adaptation to production parts.
Going forward, MHI Machine Tool will develop its metal printing services structure spanning from small-scale high-precision to ultra-large-scale items, enabling the Company to respond to a broad wide-range of prototype production needs and contract production. In these ways, MHI Machine Tool will encourage manufacturers to expand into manufacturing parts using metal 3D printers and contribute to the industrial supply chain as a whole.
Ultra-modern and high-tech manufacturing facility will be located at Toronto Pearson International Airport
Slated for completion in 2023, the one-million square-foot facility will be home to the most advanced aircraft manufacturing processes in the world
Strengthened commitment to Ontario’s aerospace industry, securing job growth and supporting economic development in the region for years to come
TORONTO, Dec. 04, 2019 (GLOBE NEWSWIRE) — Bombardier is pleased to announce that it has signed a long-term lease agreement with the Greater Toronto Airports Authority (GTAA) to build its new state-of-the art Global Manufacturing Centre located at Toronto Pearson International Airport. With preliminary site work underway in Mississauga and first production activities set to begin in 2023, the cutting-edge facility will optimize final assembly operations for all Global business jets, including the industry flagship Global 7500 business jet.
The Global Manufacturing Centre at Toronto Pearson International Airport, approximately 20 km from the current Global aircraft final assembly site at Downsview, will reinforce Canada’s leading position in the business aviation market.
“Today, I’m very excited to announce the relocation of our Global aircraft family production activities to a new, cutting-edge manufacturing facility at Toronto Pearson. This is a strategic move for Bombardier and a strong commitment to Ontario’s aerospace industry. It will allow us to offer world-class career opportunities and continue fueling the economic development of the region for years to come,” said Alain Bellemare, President and Chief Executive Officer, Bombardier Inc.
The one-million square-foot facility will combine thousands of highly-skilled employees with 21st century production and tooling innovation. Bombardier employs the highest caliber technology throughout the manufacturing process of the Global 7500 business jets, including a state-of-the-art automated positioning system that uses laser-guided measuring to ensure major aircraft structures, such as the wing and fuselage, are joined consistently and perfectly each time. Combining human ingenuity with the most advanced machines, the Global 7500final assembly line in Toronto is a testament to the industry’s most advanced business jet.
This strengthened commitment to the Greater Toronto Area will also leverage significant recent R&D investments and a continued collaboration with Ontario’s colleges and universities for world class training, research and development.
Bombardier also confirmed it will continue to support the aerospace heritage of the Downsview site with a multi-million-dollar contribution to the Downsview Aerospace Innovation and Research Consortium (DAIR) to develop a visionary aerospace hub for academic research and training activities. The contribution includes $2.5 million CAD in capital funding to refurbish the historic Moth Building, where wartime Mosquito fighter bombers and Tiger Moth trainers were produced.
(Saint-Cloud, October 29, 2019) – This summer, Lann-Bihoué French naval air station received the first two ATL2 maritime patrol aircraft upgraded by Dassault Aviation.
Last week, Florence Parly, Minister of the Armed Forces, flew on one of these aircraft.
These two events demonstrate the progress made on the upgrade program which is designed to modernize the ATL2 combat system to standard 6.
new radar: Thales Search Master with active antenna,
new Thales acoustic subsystem to gather and process signals from the latest-generation air-dropped sonobuoys for submarine detection,
new navigation console designed by Dassault Aviation,
new consoles for the tactical display subsystem, developed by SIAé.
The upgrade work is performed by Dassault Aviation and Thales (co-contractors), in association with Naval Group and in cooperation with SIAé. Architect of the combat system, Dassault Aviation is as well responsible for development of the core system including LOTI software designed by Naval Group. Dassault Aviation is also in charge of overall integration of all subsystems.
All the specifications for this program were established using the PLM Systèmes tool as part of a Dassault Aviation-Thales-Naval Group-SIAé collaborative work platform installed at St-Cloud in the Dassault Aviation design office.
The standard 6 upgrade will improve the ATL2s’ capability to support the Strategic Ocean Force, to deal with modern threats (future nuclear or conventional submarines, naval forces at sea, etc.) and to support air-land missions, until 2030.
France is one of the very few countries producing high-technology maritime patrol aircraft combining detection (optronics, radar, acoustics) with a variety of weapons (anti-ship missiles, torpedoes, laser-guided weapons).
“This expertise as an architect of maritime patrol solutions, both for the platform and for systems integration, is the result of experience dating back to the late 1950s and the launch of the ATL1 program, the predecessor of the ATL2. Dassault Aviation has extended this experience, from the 1970s onwards, with the maritime surveillance Falcons, the latest version of which is the Falcon 2000 MRA-based Albatros program. As we have shown once again with the standard 6, this maritime patrol/maritime surveillance expertise builds largely on the trust and the excellent working relations between our company, the DGA and the French Navy, to which I express my sincere gratitude. We will leverage this know-how to prepare together maritime patrol solutions beyond 2030”, declared Eric Trappier, Chairman and CEO of Dassault Aviation.
Saab has signed a supply contract with the Belgian MoD for the deliveries of training systems to the Belgian Army. The order value is approximately SEK 160 million and deliveries will take place in 2021.
The contract includes providing a complete training centre with infantry simulators, anti-tank simulators, vehicle systems and communication systems for controlling, monitoring and collecting training data to enable detailed analysis of exercises. The support contract will be negotiated separately later on.
One of the requirements was interoperability with NATO, and with Saab’s training system Belgium will be capable of participating in multinational exercises.
“This means Belgium will share the same standards as members in the Interoperability User Community (IUC). They can therefore take part in multinational exercises together with, among others, the Netherlands, Poland, Germany, Austria, Sweden, Norway, Finland, the UK and the US 7thArmy,” says Åsa Thegström, head of the business unit Training & Simulation within Saab’s business area Dynamics.
“The Belgian Army has used our training systems for the last four years and have clearly seen the benefits of realistic training. This order strengthens our position as one of the world’s leading suppliers of solutions for combat training,” says Henrik Vassallo, head of the country unit France & Benelux within Saab’s market area Europe.
The business unit Training & Simulation develops, manufactures and markets advanced military training equipment, such as laser simulator systems, instrumented training systems and target equipment. It also provides service and maintenance for delivered systems.
The EDRS-C satellite, the second node of the SpaceDataHighway network (also known as EDRS, European Data Relay System), has been successfully launched into geostationary orbit at 31° East by an Ariane 5 rocket from Kourou, French Guiana. After a test period, it will double transmission capacity of the system in order to serve two observation satellites simultaneously and provide redundant back-up for the SpaceDataHighway.
This second satellite is joining EDRS-A which transmits on a daily basis the images of Earth acquired by the Copernicus programme’s four Sentinel observation satellites. Since it entered service in late 2016, it has achieved more than 20,000 laser connections. The reliability rate has reached 99.5%, and these successful connections have downloaded more than 1 petabyte of data. Full operations including EDRS-C are expected by the end of 2019, when its inter-satellite link and end-to-end service will be tested and commissioned with the Sentinel satellites.
The SpaceDataHighway is the world’s first ‘optical fibre’ network in the sky based on cutting-edge laser technology. It is a unique network of geostationary satellites permanently fixed over a network of ground stations that can transmit data at a rate of 1.8 Gbit/s. It will be a key component of the Airbus Network for the Sky (NFTS) programme. NFTS combines various technologies – satellite and ground communications, air-to-ground, ground-to-air and air-to-air tactical links, 5G mobile communications and laser connections – in a resilient, unified, secure, highly interoperable, mesh network for aircraft, UAVs and helicopters.
SpaceDataHighway satellites can connect to low-orbiting observation satellites at a distance up to 45000 km, intelligence UAVs or mission aircraft via laser. From its position in geostationary orbit, the SpaceDataHighway system relays data collected by observation satellites to Earth in near-real-time, a process that would normally take around 90 minutes. It thus enables the quantity of image and video data transmitted by observation satellites to be tripled and their mission plan to be reprogrammed at any time and in just a few minutes.
“The SpaceDataHighway makes our data connections more secure, more stable, more reliable, with more bandwidth and in near real time. The launch of our second satellite is just the start, laser communication will be a revolution for many industries,” said Evert Dudok, Head of Communications, Intelligence & Security at Airbus Defence and Space.
A third communication node is to be positioned over the Asia-Pacific region by around 2024. Equipped with three laser terminals, EDRS-D will significantly increase the system’s communication capacity and considerably expand its coverage.
From 2021, the Pleiades Neo Earth observation satellites will begin to use the SpaceDataHighway. By the end of 2019, the system will also provide a fully European broadband communication service to the Columbus module of the International Space Station (ISS).
The SpaceDataHighway is a public–private partnership between the European Space Agency (ESA) and Airbus, with the laser terminals developed by Tesat-Spacecom and the DLR German Space Administration. Airbus owns, operates and provides commercial services for the SpaceDataHighway. The EDRS-C satellite platform supplied by OHB System AG is also carrying a payload for Avanti Communications.
