Newer, more capable fifth-generation aircraft platforms and systems are outgrowing even the largest U.S. Air Force training ranges – and the service believes modern simulators and virtual reality may be the answer.
By detecting and diagnosing problems earlier in manufacturing, Voltaiq and PDF Solutions can reduce the number of recalls and improve the yield of quality battery cells and packs.
Viziblezone Ltd.’s vehicle-to-pedestrian (V2P) solution to autonomous vehicles or “self-driving cars” is now capable of detecting pedestrians at distances of up to 150 meters (nearly 500 feet) – even when those pedestrians are standing behind objects that block line-of-sight.
VPT Inc. is introducing its SVPL series space-qualified, radiation-hardened point of load DC-DC converters – covering an input voltage range of 3.1 volts to 13.2 volts and offered in 6-, 9-, and 12-amp output surface-mount options – designed specifically for space applications facing harsh radiation environments while requiring low voltages and tight regulation for high-performance processors.
Software has transformed every operational asset of everything in life; artificial intelligence (AI) will have as big an impact on life, predicts Mark Roboff, vice president, aerospace and automotive at SparkCognition during the 2018 SAE Aerospace Standards Summit at LMI in McLean, Va.
This month, during an ongoing review of military training for rotary-wing aircraft, the GAO published a report highlighting gaps in the Department of Defense’s approach for collecting, reporting, and analyzing aviation mishap data to inform aviation risk-management decisions.
U.K. Space Agency officials in Swindon, England, are partnering with Lockheed Martin in Bethesda, Md., to execute several strategic projects to support the U.K. Spaceflight Program, with a goal of building its first commercial spaceport in Scotland and achieving its first vertical space launch in the early 2020s.
While the pandemic continues, aerospace companies are rising to embrace new and emerging challenges at a time when there’s so much innovation. This innovation can be seen in the emergence of urban air mobility (UAM), the rebirth of supersonic flight, the drive towards a “zero emission” aircraft, and the continued use of autonomous drones for delivery, freight, search & rescue, and defense. There are exciting new developments in space as companies are developing products for commercial exploration and space tourism, and new ways to launch satellites. A new generation of engineering is also emerging in the defense sector and its development of not only aircraft, but also ships, tankers, and even flight trainers.
“Laddering up” of the range of tooling options requires assessing at each plateau whether greater upfront investment in tooling will pay off with a relatively quick return on investment. Since tooling plays such a key role in this equation, it also means working closely with OEMs willing to evaluate the best available tooling options at any time as production requirements increase.
Even at the early stages of this new era of urban air mobility, there is already a scramble amongst well-known aerospace giants, as well as start-ups, to develop and evaluate the civil VTOL market. And this all starts with air-taxi concepts.
With air travel growth already causing strains across the sector and UK passenger numbers expected to increase by 49% by 2050, Cranfield Airport is using a new digital air traffic control center developed by Saab Digital Air Traffic Solutions to manage the pace.
Lockheed Martin's Auto-GCAS uses terrain mapping, geolocation, and automation to detect and avoid potential ground collisions in case of pilot spatial disorientation. The technology was initially fielded on the F-16 Fighting Falcon, but will now save an estimated 26 crashes over the course of F-35 service life.
Statistics may point to human fallibility being the cause of almost all road accidents, but the switch to a connected robotic environment must ultimately deliver every nano-second of every day on the promise of a guaranteed near-total safety highway environment. Today’s grudging acceptance by the global public of the inevitability of deaths and injuries on the road will not continue in a driverless environment.
Sikorsky, a Lockheed Martin company (NYSE:LMT), in Stratford, Connecticut, and Boeing Defense, Space & Security (NYSE:BA) in Berkeley, Missouri, are introducing the SB>1 DEFIANT helicopter designed to fly with advanced agility and maneuverability at twice the speed and range of current conventional helicopters. Jointly developed for the U.S. Army’s Joint Multi-Role technology demonstrator program, the new rotorcraft design is intended to help inform the next generation of military helicopters as part of the U.S. Army's Future Vertical Lift (FVL) program.
In contrast to the stiff, rigid wings found on most commercial aircraft, flexible wing technology is considered essential to next generation, fuel efficient aircraft. However, flexible wings are susceptible to “flutter,” or highly destructive aeroelastic instability. To better understand and mitigate flutter, engineers at NASA’s Armstrong Flight Research Center (AFRC) equipped the X-56 with fiber optic sensing (FOS) technology.
SaraniaSat, an aerospace startup in Los Angeles, won a three-year, $5.1 million NASA In-Space Validation of Earth Science Technologies (InVEST) contract to test and advance the company’s Hyperspectral Thermal Imager (HyTI), being touted as a unique, disruptive technology for hyperspectral remote sensing, a technology also known as imaging spectroscopy used to detect and identify minerals, vegetation, and manmade materials.
Designing for safety in automated vehicles has complex requirements – many of which are surrounded with misconceptions. As the leader for training mobility engineers, SAE is providing a two-day classroom seminar: Introduction to Automated Vehicle Safety: Multi-Agent, Functional Safety, and SOTIF.
SAE International® and General Motors are prepping for the AutoDrive Challenge™ Year 2 Competition May 29 through June 4, 2019, at the Mcity Test Facility, a purpose-built proving ground for connected and automated vehicles and technologies at the University of Michigan in Ann Arbor.