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The aerospace industry is facing immense challenges due to increased design complexity and higher levels of integration, particularly in the electrification of aircraft. These challenges can easily impact program cost and product time to market. System electrification and electromagnetic compatibility (EMC) have become critical issues today. In the context of 3D electromagnetics, EMC electromagnetic compatibility ensures the original equipment manufacturer (OEM) that radiated emissions from various electronic devices, such as avionics or the entire aircraft for that matter, do not interfere with other electronic products onboard the aircraft.

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.

Lockheed Martin Corporation has released the latest version of RELY3D, its advanced visualization and training tool for sensor system maintainers working on the Boeing AH-64 Apache attack helicopter.

The SORA-P60 uses Cepton’s Micro-Motion Technology (MMT) to achieve an industry leading 1,200 scan lines per second, to provide accurate 3D scans and to enable automated classification of objects and volumetric scanning. The sensor is currently installed at an undisclosed highway tolling facility in the United States.

Through this work, Wind River and Airbiquity look to enable secure and intelligent software updates and data management for these vehicles through over-the-air (OTA) programming technology. The work may also lead to similar solutions for traditional aerospace and unmanned aircraft system (UAS) industries.

As outlined in the contract, Aitech Defense will supply an advanced, customized remote input/output (I/O) interface controller based on the company’s commercial-off-the-shelf (COTS) modular, dual-core Ai-RIO remote interface.

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.

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.

The imagining system, or Pilotage Distributed Aperture Sensor (PDAS) system, is designed to enhance situational awareness and threat detection for pilots and auxiliary personnel in visually degraded environments.

“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.”

The China Automotive Technology and Research Center Co., Ltd. (CATARC), TÜV SÜD Group, and Shanghai SH Intelligent Automotive and International Transportation Innovation Center (ITIC) have joined with SAE International to establish the International Alliance for Mobility Testing and Standardization (IAMTS).

A General Atomics Aeronautical System, Inc. (GA-ASI) MQ-9B SkyGuardian remotely piloted aircraft (RPA) was controlled – from takeoff to landing – by an operator using a GA-ASI certifiable ground control station (CGCS), marking the first time a CGCS was used to control an end-to-end flight and the first step in type-certifying the unit.

Some OEMs are finding that the traditional solutions for eliminating EMI/RFI are no longer sufficient given increases in operating circuit frequency, noises of higher frequencies that expand the affected frequency range, and the miniaturization of electronic devices that shrink the distance between source and device. This is leading many OEMs to employ monolithic EMI filters instead of traditional options.

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.

Airbus SE and the University of Nottingham have partnered with Air Race E to establish the world’s first electric airplane race. The competition, which aims to drive the development and adoption of cleaner, faster, and more technologically advanced electric engines, will follow a format similar to the popular Air Race 1 series of the sport known as “Formula One Air Racing.”

Pilatus Aircraft Ltd. of Stans, Switzerland has awarded a long-term multi-year contract to Abu Dhabi-based Rockford Xellerix for the assembly of wire looms and cable harnesses for the Pilatus PC-24 light business jet.

Orbex, a developer of small satellite (smallsat) launch vehicles based in Forres, Scotland, has unveiled its “Prime” launch vehicle. The rocket utilizes several novel technologies, including the world’s largest metal rocket engine produced as a single piece through additive manufacturing (AM).

As mobility software becomes increasingly complex and connected, so does the risk of human error and system safety. To combat this, New York-based software company AdaCore will work with Nvidia Corporation of Santa Clara, California to apply open-source Ada and SPARK programming languages for select software security firmware elements in highly-complex, safety-critical systems like Nvidia’s DRIVE AGX automated and autonomous vehicle solutions.