On Sept. 12, NASA will conduct the first test flight of its latest heatshield, the Adaptable Deployable Entry Placement Technology (ADEPT) mechanically deployable semi-rigid aeroshell entry system.
The Terma 3D-audio system will enhance pilot situational awareness by supplementing the A-10C cockpit control panel visual warning system with audible directional signals from within the pilot’s helmet. The natural or spatially separately audio signals will be similar to what a human would hear when not wearing a conventional headset.
In the “What’s Next for Aerospace and Defense: A Vision for 2050” study, AIA, New York City-based McKinsey & Company, and other industry partners reveal a comprehensive 30-year, Industry 4.0 forecast of air travel and spaceflight based on improvements in automation and digitization, next-generation materials, alternative energy sources and storage, and increased data throughput.
Hardware and software engineers at AVIO, a global aerospace company engaged in the construction and development of space launchers and solid and liquid propulsion systems for space travel, with facilities in Italy, France, and French Guyana are actively enhancing the design of the Vega space launcher, with a focus on evolving the design with enhanced avionics and propulsion technologies while also maximizing subsystem reuse and reorganizing production processes for a more efficient production chain.
Software engineers engaged in the construction and development of space launchers and solid and liquid propulsion systems for space travel at AVIO – a global aerospace company with five facilities in Italy, France, and French Guyana – are leveraging the GNAT Pro Assurance and GNATemulator from AdaCore, a provider of software development and verification tools, with headquarters in Paris and New York to develop and expedite testing of safety-critical, on-board software for the Vega C launcher.
As a committee member, AVL will use its position to further develop and implement automated vehicle testing best practices and replicable procedures, and provide manufacturers and mobility-as-a-service (MaaS) companies with a comprehensive portfolio of physical and virtual test environments and audited capabilities.
Earlier this month, General Atomics Aeronautical System, Inc. (GA-ASI) completed an entire MQ-9B SkyGuardian remotely piloted aircraft (RPA) flight – from takeoff to landing – using a GA-ASI certifiable ground control station (CGCS). At the core of the CGCS is Abaco Systems Inc.’s (Abaco’s) certifiable FORCE2 Open Reference Computing Environment.
Abaco Systems Inc. is launching a new family of avionics devices for test and simulation, development, and dataloading that feature Thunderbolt 3 interfaces. The new portable, high-speed, low-latency avionics devices – RCEI-830A-TB and QPM-1553-TB – are designed for a broad range of avionics applications and include Thunderbolt 3-to-PMC/XMC interfacing with ARINC 429 and MIL-STD-1553 protocols.
AdaCore, which focuses on portable, reliable, and efficient code, will provide leadership and direction for the FACE Consortium’s mission to standardize an open avionics environment for military aircraft.
The 3D printing materials market will experience high double-digit growth in the aerospace industry through 2024, as manufacturers of aircraft and spacecraft vehicles and components increasingly adopt and reap the benefits of additive manufacturing, market analysts at Frost & Sullivan in Mountain View, California, predict.
Two new installments in the burgeoning SAE International Podcast Series cast a spotlight on additive manufacturing, which is fueling innovation, greater efficiencies, and the future of mobility engineering. Additive manufacturing continues to advance and transform mobility engineering, as aerospace and automotive firms increasingly adopt and invest in 3D printing technologies, which are becoming more capable and cost-effective.
Designers are envisioning new looks for vehicle interiors, as in-vehicle connectivity and electrified powertrains usher in the autonomous driving age. As more EVs enter the marketplace with battery packs housed underneath the cabin floor, the door opens to a new era of interiors.
Adhesive joining of structural components will assume an increasingly important role in designing and manufacturing lightweight structures for aerospace platforms. The latest book from SAE International, Adhesive Joining of Structural Components: New Insights and Technologies explores recent advancements in adhesive bonding, used in the manufacture of primary aircraft fuselage and wing structures since 1945.
Aerion Supersonic in Reno, Nevada, and Honeywell Aerospace in Phoenix are collaborating on a revolutionary, connected cockpit for the Aerion AS2, regarded as the first supersonic business jet in history.
A growing number of organizations, including leading aerospace and defense (A&D) companies, are implementing model-based systems engineering (MBSE), a practice developing and exploiting a set of related system models that help define, design, and document a system under development – and reaping the benefits of not only increased productivity, agility, and efficiency, but also time and cost savings.
The meeting will include updates from members of the Composite Materials Handbook Substantiation of Bonded Repairs (SoBR) working group who have been continuing development of SAE International Commercial Aircraft Composite Repair Committee standardization efforts.
As the complexity of aircraft rises, it’s becoming more difficult to ensure that all the mechanical and electrical elements work together well. More and more companies are establishing data management schemes that enable design and manufacturing engineers to work more closely together.
The United States Air Force’s 412th Test Wing’s Emerging Technologies (ET) Combined Test Force (CTF) completed the first flight test of Johns Hopkins University’s Testing of Autonomy in Complex Environments (TACE) system. As “middleware,” TACE serves as an “autonomy watchdog,” monitoring commands sent to an aircraft’s autopilot software from its autonomous artificial intelligence (AI) computer and transmitting autopilot information such as position, speed, and orientation back to the AI.