Through the partnership, Honeywell Aerospace plans to integrate its current avionics, navigation, fly-by-wire technologies into Vertical Aerospace’s electric vertical take-off and landing (eVTOL) vehicles.
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.
Honeywell (NYSE:HON) engineers in Phoenix have packed the “brains” of an airliner’s flight controls into a “fly-by-wire” computer system designed to provide the next step toward autonomous and urban air mobility (UAM) vehicles.
Hydrogen fuel cell powertrains provide significant weight and space saving advantages over battery electric ones for heavy-duty trucks. This allows for similar packaging to current trucks and minimal design alterations for the new power source.
The company debuted on Earth Day the third iteration of its hydrogen-powered Class 8 truck, which uses a Kenworth T680 model as a starting point and replaces the diesel engine with two solid polymer electrolyte fuel-cell stacks that are exactly like the one used in the Mirai.
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.
To better engage with developers of autonomous vehicles (AVs), the U.S. Department of Transportation (DOT) is looking to remove unnecessary regulation that could slow the testing and deployment of automated driving system (ADS) technology.
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.
Although Northrop Grumman officials acknowledged during a post-test press conference that the incident needs to be “looked into,” they stated that the thrust profile could be “very normal, nominal.” A following statement labeled the test a success and announced that OmegA is on track for its first test launch in 2021 and operational service in 2022.
When India’s MICROSAT-R was scheduled to pass through the surveillance fence, Space Fence’s gallium nitride-powered S-band ground-based radars detected multiple objects within proximity of each other and issued an automatic “breakup alert.”