Michael Cervenka, CEO of Vertical Aerospace, said:
“Vertical is well advanced in the development of its next-generation, high-performance, passenger-carrying vehicle. We are excited at the prospect of broadening our already fantastic partnership with Honeywell, enabling our vehicles to leverage not only Honeywell’s state of the art flight control systems, but also to marry these with the very latest in intuitive and safe flight deck technologies.”
The agreement deepens the collaboration between the two companies following the signing of contracts in 2019 to equip Vertical demonstration aircraft with the Honeywell Compact Fly-By-Wire System and flight control software.
Stéphane Fymat, vice president and general manager, UAS/UAM, Honeywell Aerospace, said:
“One of the most important outcomes of this program will be the successful demonstration of simplified vehicle operations, which essentially is about making these aircraft more intuitive and flattening the learning curve to safely fly them. Vertical Aerospace has been a wonderful partner, and we’re excited to be part of its demonstrator aircraft to address this challenge and, in doing so, help move the entire industry forward.”
The new agreement includes several other technologies present in the front end of the aircraft. These include multitouch displays, avionics system controls, avionics software and the vehicle operating system.
These technologies will work together with other systems onboard the aircraft to make the aircraft simpler to operate than a traditional airplane or helicopter, while still ensuring safety of the operator and other occupants. This type of “simplified vehicle operation” will be a transformative next step in the UAM industry.
Honeywell is a major player in the emerging UAM market, offering a full line of avionics, electric and hybrid-electric propulsion systems, and operational systems — all tailored for unmanned aircraft and UAM vehicles. Honeywell also offers aerospace integration and certification expertise for enabling the commercialization of these vehicles.