Boeing and SparkCognition are collaborating on unmanned aircraft system (UAS) traffic management (UTM) solutions that leverage artificial intelligence (AI) and blockchain technologies to track unmanned air vehicles in flight and allocate traffic corridors and routes to ensure safe, secure transportation.
Less than a year after the GE9X turbofan first flew on its Boeing 747 testbed, GE Aviation and Boeing have installed the record-breaking engine on the aircraft it was designed for: the Boeing 777X. Two massive GE9X engines are now hang under the wings of the Boeing 777-9X flight test aircraft.
The unmanned aerial vehicle (UAV) operated in a safe and controlled environment, successfully took off, hovered, transitioned to forward flight, and then landed safely.
Boeing is in the midst of several months of flights with its ecoDemonstrator 757 in a first-round effort to evaluate new technologies in 2015 that are expected to reduce environmental effects on natural laminar flow as a way to improve aerodynamic efficiency while reducing noise and carbon emissions.
The Boeing Company is kicking off a new round of flight-testing to research approximately 50 technology projects related to safety, environmental sustainability, and passenger experience. More than a dozen partners are participating in the 2019 program.
The route-proving program is being conducted as SWISS readies for the CS100 aircraft’s entry-into-service, the airline’s first CS100 aircraft is scheduled to be delivered by Bombardier in second quarter 2016.
Colorado-based Boom Technology’s “Baby Boom” XB-1 supersonic demonstrator—a one-third scale stepping stone to a supersonic 40-seat passenger airliner—will make its first test flight late-2017. Although currently under construction, the XB-1 is described as “the first independently developed supersonic jet and history’s fastest civil aircraft.”
At the convergence of 3D-printing and lithium battery technology, Hong Kong researchers develop a promising textile-based, foldable battery that may find its way onto IoT-connected fabrics within automotive, aerospace, and medical industries.
Bridgestone Corp. in Tokyo and Nashville, Tennessee, is joining Japan Aerospace Exploration Agency (JAXA) and Toyota Motor Corp. in an international space exploration mission to expand the domain of human activity and develop intellectual property on space exploration. Bridgestone's mission assignment is to research the performance needs of tires for use on manned, pressurized rovers to help them make better contact with the surface of the moon.
Treating molten metal with ultrasound is cleaner and more efficient than using argon rotary degassing to produce high-quality castings, according to scientists at Brunel University London. Cost reduction is another benefit, demonstrated in the research team's pilot-scale trials.
We huddled in a tight circle by the finish line, frantically waiting for radio updates on the progress of our team’s rider, Rob “Bullet” Barber, who was miles in the distance and closing fast. Our 11-person team of student engineers and support crew from The Ohio State University could hardly breathe as we got the report: Barber was battling for third place—a podium finish—in the TT Zero class for electric racing motorcycles at the 2014 Isle of Man TT. Barber was aboard our latest race bike, the RW-2.X, designed and built by the OSU College of Engineering team, known as Buckeye Current. We’d brought it over 3600 mi (5700 km) to the Isle of Man, the iconic road-racing mecca in the middle of the Irish Sea. We aimed to prove our engineering and technology against the best electric bikes on the fast and treacherous public road—37.75-mi (60.75 km) per lap—that is the world’s most unforgiving race circuit. Finally came a rider, tucked in tight behind the fairing.
“We originally thought solar cells would be standard on the airplane’s wings,” says George E. Bye, founder and CEO of Bye Aerospace Bye. “However, with eFlyer’s primary markets being flight training and air taxi services, it makes more sense to make the price of the airplane as reasonable as possible.”
A cable installation simulator from W. L. Gore & Associates aids in evaluating the stress of installation on microwave airframe assemblies, thereby minimizing the risk of cable assembly damage or failure during installation.