Air to Air photo_F-15QA FAM Flights, MidAmerica St. Louis Airport (BLV), Mascoutah, IL. His Excellency Dr. Khalid bin Mohammed Al Attiyah, Qatar Minister of State for Defense Affairs.
ST. LOUIS, Aug. 25, 2021 – Boeing [NYSE: BA], in collaboration with the U.S. Air Force and Qatar Emiri Air Force (QEAF), celebrated the naming and rollout of Qatar’s advanced F-15, the F-15QA.
The first set of F-15QA jets will ferry to Qatar later this year following the completion of pre-delivery pilot training.
Boeing has been providing maintenance and logistics support for the QEAF during pre-delivery pilot training, which began earlier this year. In addition, Boeing will establish and operate an aircrew and maintenance training center for the QEAF at Al Udeid Air Base in Qatar through 2024 while also providing in-country spares and logistics support once aircraft are delivered.
GURUGRAM, August 19, 2021: In a step towards building passenger confidence as international travel picks up, SpiceJet will begin trial of IATA (International Air Transport Association) Travel Pass mobile app for digital health verification. The trial will be conducted on flights out of Mumbai to Male effective August 23, 2021.
The IATA Travel Pass is a mobile application that helps travellers to store and manage their verified certifications for Covid-19 tests or vaccinations. The Travel Pass will manage and verify the traveller’s COVID-19 status in line with governments’ health and border requirements.
In another significant development, SpiceHealth has been on-boarded by IATA as a lab partner for the Travel Pass trial. SpiceHealth is a healthcare company founded by the promoters of SpiceJet.
SpiceHealth has emerged as the fastest-growing diagnostic lab in the country – having conducted more than 3.5 million RT-PCR tests since its launch in November 2020. SpiceHealth laboratories are accredited by National Accreditation Board for Testing and Calibration Laboratories and Indian Council of Medical Research. SpiceHealth currently operates 21 labs and collection centers for RT-PCR and rapid antigen testing spread across eleven cities in India. Besides, the Company also operates seven vaccination centers across five states.
As international travel restarts, passengers will need accurate Covid-19 information and the IATA Travel Pass provides governments with the means to verify the authenticity of tests or vaccinations, airlines with the ability to provide accurate information to their passengers on test requirements and verify that a passenger meets the requirements for travel and travellers with accurate information on test requirements, where they can get tested, and the means to securely convey their travel health credentials to airlines and border authorities.
SpiceJet has been innovating constantly to enhance customer experience while offering a safe and comfortable journey. SpiceJet was the first airline to introduce Zero Change Fee in March 2021. The airline had earlier introduced a COVID insurance cover including tests, medication and consultations upon testing positive for COVID-19. The airline also introduced SpiceJet Extra seat which allows passengers the option to book two or more seats to make their travel more comfortable and hassle-free.
ADAC Luftrettung, one of Europe’s biggest Helicopter Emergency Medical Services (HEMS) operators, has taken delivery of its first two five-bladed H145s. Furthermore, the German HEMS operator will upgrade its current fleet of 14 four-bladed H145s to the five-bladed rotor system.
ADAC Luftrettung operates more than 50 Airbus helicopters from their 37 stations throughout Germany. In June, an ADAC H145 was the first HEMS helicopter to fly with sustainable aviation fuel.
The new version of Airbus’ best-selling H145 light twin-engine helicopter was unveiled at Heli-Expo 2019 in Atlanta. This latest upgrade adds a new, innovative five-bladed rotor to the multi-mission H145, increasing the useful load of the helicopter by 150 kg. The simplicity of the new bearingless main rotor design will also ease maintenance operations, further improving the benchmark serviceability and reliability of the H145, while improving ride comfort for both passengers and crew. The helicopter’s high-mounted tail boom and wide opening clam-shell doors facilitate access to the H145’s spacious cabin.
Powered by two Safran Arriel 2E engines, the H145 is equipped with full authority digital engine control (FADEC) and the Helionix digital avionics suite. It includes a high performance 4-axis autopilot, increasing safety and reducing pilot workload. Its particularly low acoustic footprint makes the H145 the quietest helicopter in its class.
Today, Airbus has more than 1,470 H145 family helicopters in service around the world, logging a total of more than six million flight hours. For HEMS alone, there are more than 470 helicopters of the H145 family conducting air rescue missions worldwide.
Lockheed Martin and NASA executives officially opened the STAR Center in Florida on July 15.
TITUSVILLE, Florida, July 15, 2021 /PRNewswire/ — Lockheed Martin [NYSE: LMT] opened its Spacecraft Test, Assembly and Resource (STAR) Center today. The STAR Center features business and digital transformation innovations that will expand manufacturing, assembly and testing capacity for NASA’s Orion spacecraft program and ultimately, future space exploration.
Lockheed Martin currently assembles the Orion spacecraft for the Artemis I and II Moon missions at the nearby Neil Armstrong Operations and Checkout (O&C) building at NASA’s Kennedy Space Center. The addition of the STAR Center provides much-needed space for the new production phase of Orion, allowing future Orion spacecraft – starting with the Artemis III mission – to be built faster.
Lockheed Martin acquired the building that formerly housed the Astronaut Training Experience attraction and spent 18 months and nearly $20 million renovating and modernizing the 55,000 square-foot space into a digitally-transformed factory of the future.
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.
Alstom (OTC: ALSMY) has signed a contract with Germany’s Baden-Wuerttemberg State Institute for Rail Vehicles (SFBW) to retrofit 118 regional trains with the European Train Control System (ETCS) Automatic Train Operation (ATO) digital signalling technology. Part of the Stuttgart Digital Node lighthouse project, the contract is valued at approximately 130 million euro1 and includes an innovation cooperation agreement software maintenance contract and a contract for further maintenance.
In addition to the recently announced S-Bahn project, the new retrofit project covers 118 trains that SFBW operates on the high-traffic Stuttgart network. The trains come from several different suppliers and will be upgraded with the European Train Control System (ETCS) Level 2 and 3 as well as Automatic Train Operation (ATO) level 2 (GoA2) technology. The initial upgrade project will be completed by 2024 and the subsequent upgrade, according to the European Technical Specifications for Interoperability 2022, will be completed by 2027.
While ATO technology has already been implemented in metros and urban rail lines in cities like Paris, the highly automated operation (GoA 2) is now being used for the first time in Germany on the basis of ETCS Level 2 in the Stuttgart Digital Node. When completed in 2024, the new signalling technology will increase capacity and frequency on the Stuttgart network while also making the trains performance more sustainable.
As part of the agreed innovation cooperation, Alstom and SFBW will also define the requirements for Train Integrity Monitoring (TIM), Future Railway Mobile Communication System upgrade capability, Train Capability and for Open CCS On-board Reference Architecture (OCORA). The implementation of the developed requirements by Alstom is part of the contract, as is the software maintenance of the regional trains.
The project is being carried out by the Alstom signalling site in Berlin, Germany, in close cooperation with the ETCS competence center in Charleroi, Belgium. Other locations involved in the various project phases are Braunschweig, Salzgitter, Mannheim and Hennigsdorf in Germany as well as Bangalore, India, Bucharest, Romania and Lyon-Villeurbanne, France. The series installation will take place close to Stuttgart or in Hennigsdorf.
Garmin International Inc. (Nasdaq: GRMN), a unit of Garmin Ltd., today announced it has received Federal Aviation Administration Supplemental Type Certificate approval for the GFC 600 digital autopilot in select Pilatus PC-12/41 and PC-12/45 aircraft. The GFC 600 digital autopilot is optimized to meet the demands of turbine aircraft, delivering superior in-flight characteristics and operational capabilities such as Vertical Navigation (VNAV), automatic Course Deviation Indicator (CDI) switching when paired with a GTN Series navigator, enhanced go-around capability and much more.
The GFC 600 certification for the PC-12 boasts superior integration with a TXi flight display configured as a primary flight display (PFD) to provide owners and operators an advanced autopilot solution that considers the wide range of speed and performance characteristics of these turbine aircraft. Further, the GFC 600 incorporates solid-state attitude with robust self-monitoring capabilities to provide superior autopilot performance, greater reliability and renowned safety benefits. Environmentally hardened autopilot servos designed for harsh operating conditions contain brushless DC motors offering improved performance and reducing maintenance requirements when compared to decades-old servo designs on the market today. Standard mark-width (6.25-inch) design of the GFC 600 mode controller ensures the autopilot controller allows for routine installation into the aircraft’s avionics stack.
Going beyond traditional autopilot capabilities such as altitude hold, vertical speed and heading modes, the GFC 600 also includes altitude preselect, VNAV, Level Mode with the LVL button, underspeed and overspeed protection and more. Pilots can also select, couple and fly various instrument approaches, including GPS, ILS, VOR, LOC and back course approaches when paired with a compatible GPS navigator.
Additional benefits of the GFC 600 digital autopilot for turbine aircraft include:
Premium functions and advanced capabilities such as altitude pre-select on a TXi flight display configured as a PFD and indicated airspeed hold mode;
Built-in GPS roll steering capability eliminates the need for external roll steering converters, allowing for smoother navigation tracking when installed with a compatible navigator;
Yaw Damping (YD) mode minimizes yawing oscillations while also helping to maintain coordinated flight;
Flight Director command bars displayed on a TXi flight display configured as a primary flight display (PFD);
Coupled ‘go-arounds’ during missed approach sequencing with a remotely-installed go-around button that commands the Flight Director to display the appropriate pitch attitude required for the missed approach procedure and activates a loaded missed approach when paired with a GTN 650/750 or GTN 650Xi/750Xi navigator;
Control wheel steering allows the pilot to adjust pitch, roll, altitude hold, vertical speed or airspeed references using the control yoke while the autopilot is engaged.
Saab has received an order from Panavia Aircraft GmbH to upgrade the radar warning equipment on the Tornado aircraft operated by the German Air Force. The order value is approximately 400 million SEK.
Saab will supply modern digital components, which will enhance the processing power and extend the lifetime of the Tornado’s radar warning equipment. Deliveries will take place between 2021 and 2025. Saab will carry out the work at its sites in Nuremberg, Germany and Järfälla, Sweden.
“Mutual trust, reliability and performance are the cornerstones of the successful long-term partnership between Panavia, the German Armed Forces and Saab. We look forward to supporting the Luftwaffe with the latest technologies contributing to the platform’s survivability and mission success. Essential work will be carried out in Germany, which is in line with Saab’s strategy to expand our footprint on the German defence market”, says Anders Carp, deputy CEO of Saab and head of business area Surveillance.
Saab’s state-of-the-art radar warning equipment provides aircrews with superior situational awareness of the electromagnetic spectrum in challenging environments. Saab received the initial order for radar warning equipment for Germany’s Tornado fighters in 1999.
Four Avelia Euroduplex trains from the SNCF fleet will enter commercial service on Monday 10 May 2021 on the Madrid-Barcelona route. They will be operated by OUIGO España, a local subsidiary of SNCF. The trains have been converted by Alstom and SNCF to run on the Spanish high-speed rail network.
Following on from these first four trains, 10 other trains are currently being converted by Alstom to serve several high-speed routes in Spain: initially, the Madrid-Valencia and Madrid-Alicante routes and subsequently, Andalusia (Madrid-Seville and Madrid-Malaga). OUIGO España will thus have a fleet of 14 trains for 5 destinations departing from Madrid: Barcelona, Valencia, Alicante, Seville, and Malaga.
During the conversion process of the trains, Alstom developed and deployed on-board signalling equipment architecture, necessary for rail traffic safety and performance, based on its digital ERTMS[1] solution Atlas. This solution ensures that Avelia Euroduplex trains are compliant and can be approved for Spanish infrastructures.
Toulouse, France 5 May 2021 – Airbus (OTC: EADSY) is saddened to learn of the passing of Bernard Ziegler, at the age of 88. Ziegler, one of Airbus’ engineering pioneers, was instrumental in the introduction of the world’s first digital Fly-By-Wire (FBW) and side stick controls in a commercial passenger aircraft with the A320 in 1988.
Ziegler’s career spanned some four decades. He realised the full potential that digital FBW could bring, including flight envelope protection incorporated into the control software. Ziegler’s legacy lives on with digital FBW on all current generation Airbus aircraft, and its adoption as the standard on all modern passenger aircraft globally.
Born in 1933, in Boulogne sur Seine, Ziegler graduated from the French “Ecole Polytechnique” in 1954 and, later, from several engineering and flight training schools (Ecole Nationale de l’Air, Ecole de Chasse, Ecole Nationale Supérieure de l’Aéronautique, Ecole du Personnel Navigant Essais). For ten years, he was a fighter pilot in the French Air Force.
During the early 1960s he studied aeronautical engineering at ENSA (l’Ecole Nationale Supérieure de l’Aéronautique) in Toulouse, which is now ISAE-SUPAERO. He then attended prestigious flight test pilot school EPNER, before taking up a career as a military test pilot.
Ziegler joined Airbus as its chief test pilot in 1972 and was given the task of setting up a new flight test division. He put together a team that shared the objectives of both the design office and the partner countries, fostering collaboration between flight test crews and design engineers.
As a test pilot, he flew the first flight of the first A300 in 1972. The programme was later on an early testbed for FBW which transfers the pilot’s commands to the aircraft via digital signals. FBW provides significant benefits through commonality, improved flight safety, reduced pilot workload, fewer mechanical parts, and real-time monitoring of all aircraft systems.
He also flew the A310, A320 and A340-200. In June 1993, Ziegler participated in the longest flight ever undertaken by a civil aircraft, when an A340-200, dubbed the “World Ranger”, flew around the world from Paris with just one stop in Auckland in just over 48 hours.
Up until his retirement in December 1997, Ziegler was Airbus Senior Vice President of Engineering.
