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.
Raytheon Company (NYSE: RTN) in Waltham, Mass., has upped its investment in advanced manufacturing innovations, including automated and autonomous technologies, to support complex radar testing and integration. The company’s new $72 million, 30,000 square-foot facility on its Andover, Mass., campus, is now home to some of the industry's leading innovations, and a historic first, in manufacturing, officials say.
This latest work expanded on a joint DARPA and University of Pittsburgh Human Engineering Research Laboratories experiment from 2015 where a paralyzed individual used a BCI (in this case, a surgically-implanted microchip) connected to a flight simulator to steer a virtual Lockheed Martin F-35 Lighting II.
Shape the future of flight while competing for a share of $1.8 million in prizes. SAE International, an organizational partner of the Boeing-sponsored GoFly Prize international competition, invites innovators to build a personal flying device with the potential to change the future of mobility.
Under the OFFSET program, BBN Technologies (a subsidiary of Raytheon) is developing direct and control solutions for swarms of small, autonomous air, and ground vehicles.
Standards development teams at SAE International in Warrendale, Pa., have issued 11 new technical documents and revised or reaffirmed another 54 technical reports focused on mobility engineering across the aerospace, automotive, and commercial transportation communities. The new documents, issued throughout June 2018, cover a variety of technical subject areas, including: diagnostic link connector security, mitigation strategies against illumination effects, data dictionary for quantities used in cyber physical exams, requirements for production of metal powder feedstock for use in additive manufacturing of aerospace parts, and laser powder bed fusion process.
Connected aircraft means more than just in-flight movies, free texting, and Facebook posting with friends while in flight. In fact, the connected aircraft revolutionizes airline operations, dramatically improving fleet management, flight safety, passenger experience, maintenance, flight operations, aircraft turnaround time, and costs. For aircraft operators, connectivity presents a new set of operational benefits that were previously unavailable.
Engineers from the Air Force Research Laboratory’s (AFRL’s) Manufacturing Technologies Division successfully demonstrated the capabilities of a new multi-purpose maintenance and manufacturing robot at the Southwest Research Institute in San Antonio.
Today, Stratasys Ltd. unveiled the spin-off of its Selective Toner Electrophotographic Process (STEP) technology and forming of Evolve Additive Solutions.
NASA invited MIS to submit a proposal for a technology flight demonstration mission of its Archinaut technology – an in-space robotic manufacturing and assembly platform designed by Made In Space (MIS). It's purpose is to construct space-optimized systems of sizes not previously feasible.
Aerospace professionals will gather at the SAE 2018 Aerospace Standards Summit to focus on “Humans on the Loop — The Role of Humans in Automated Systems” Oct. 2-3, 2018 in Tysons Corner, Va. This year’s event will focus on how automated systems and artificial intelligence will impact the role of humans in aerospace systems.
Lockheed Martin of Bethesda, Md. and the Office of Naval Research are exploring how to apply artificial intelligence to train robots to independently oversee and optimize additive manufacturing, also known as 3D printing, of complex parts.
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.
Sometimes mandatory, often voluntary, security frameworks are created to provide federal and commercial organizations with an effective roadmap for securing information technology (IT) systems. The goal is to reduce risk levels and prevent or mitigate cyberattacks. To accomplish this task, security frameworks typically provide a series of documented, agreed upon, and understood policies, procedures, and processes necessary to secure the confidentiality, integrity, and availability of information systems and data.
With an initial focus on critical fight management systems, the committee will evaluate applications for AI usage in aviation and aerospace and will propose standards to support implementation and certification
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.
SAE International in Warrendale, Pa., has published AS13006: Process Control Methods, a new standard with guidance material to support specific aerospace engine applications, with a focus on the practical application of control methods for many different situations, to improve process control, process capability, and product quality, benefiting both the organization applying it and its customers.
Lidar technologies provide immediate and accurate free-space detection and excellent object detection and localization. As a result, a driver-assistance system designed with a high-performance, forward-looking lidar (FLL) sensor would greatly improve vehicle performance and safety. The third installment of this multipart series provides practical insight into the use of lidar technology as the cornerstone of a real-world advanced driver-assistance system.
Automakers have invested heavily in developing advanced driver-assistance technologies to make driving more comfortable and safe. The most advanced of these systems are already offered as vehicle features that satisfy Level 2 automated driving as defined by SAE International in SAE J 3016-2018 Taxonomy and Definitions for Terms Related to Driving Automation Systems for On-Road Motor Vehicles and incorporate capabilities, such as Lane Keep Assist (LKA), Adaptive Cruise Control (ACC), and Automatic Emergency Braking (AEB). These features can intervene in certain driving scenarios to control the vehicle’s movement; yet, to ensure safe operation, the driver must remain attentive and focused on the driving environment.