Some more context - this the first deployment of the BRS system in their flagship; the Vision Jet.
The Vision Jet is also the only turbine (jet) engine powered aircraft with such a system.
It also boasts the Garmin Safe Return system; where the autopilot lands the aircraft in case of Pilot incapacitation - doing everything from radio calls, selecting the appropriate airport and runway, flying the approach and landing to a stop.
Has Safe Return yet been used in an emergency? I've seen the demo videos, but haven't seen any news reports of it being used for real.
It's not wasted hardware even if not used. The aircraft already has a flight control system capable of flying from waypoint to waypoint and landing. Safe Return adds a layer of software able to compute and enter a course, while squawking Mayday and playing canned emergency messages on the guard frequency. New hardware is just a radio altimeter for use in landing, and the ability to lower the landing gear under computer control.
Didn't this have to add a lot more automation that goes beyond what a typical Cirrus with Perspective/Perspective+ would offer? Not just the radar altimeter and automated gear extension but autothrottle, flaps, braking, an auto-flare, etc...
Are the radio calls one-way, or can it understand directions from the air traffic control tower (e.g. Don't use Runway 6, Runway 8 is clear)? How's that work, voice recognition or teletype or something?
Pretty sure the system doesn't parse ATC audio but as other posters have noted can use machine readable METARs and other data to get a sense for weather and available runways. (Note that the system does NOT parse NOTAMs yet per https://skiesmag.com/features/virtual-co-pilot-garmin-autola...) Beyond that am guessing that it declares its intentions and hopes ATC can pave a clear path. They are generally exceptionally good at doing this for aircraft in distress; just squawk 7700, state your intentions on 121.5, they will make it happen - you're allowed to do literally anything and violate every rule in the book if it's required for safety of flight. You can land on an active military base or a major commercial airport runway if you need to. Mind you, there may be some paperwork to fill out on the ground after, but while you're in the pickle everyone is there to help.
Additional context: there have been major airliner crashes resulting in hundreds of deaths as a result of planes put in holding patterns by ATC that ran out of fuel while waiting to land https://en.wikipedia.org/wiki/Avianca_Flight_052
Any reasonably sophisticated jet (of which this is clearly one) will have access to more or less realtime weather data, as well as NOTAMs (notices to airmen) regarding closed runways and such.
I'm not familiar with the system's details, but I would assume that it would pick the nearest towered airport with emergency services that met the requirements of the landing performance. Landing autonomously on a strip in the middle of nowhere, with nobody around, isn't likely to be particularly useful in an emergency unless the aircraft is no longer airworthy - and even then, if you can keep it in the air, going somewhere big with emergency services is a better idea.
A towered airport will have air traffic control (not all small strips do), and if the jet sets the transponder code to indicate an emergency, and is making blind radio calls about intent as to what runway it's going to land on, ATC will then clear the airport for the incoming emergency, and keep everyone else out of the way - and roll the trucks to meet it once it stops. I doubt it will bother getting off the runway autonomously - just come to a safe stop, shut down, and then it's someone else's problem to taxi it off.
Aviation is somewhat nice in that way. Emergency traffic has priority. If I were to be flying a Cessna 152 along Lake Michigan and had an emergency with O'Hare being the nearest airport, I've got priority, and the oceanic heavies will get out of the way until it's resolved. Now, you may have some serious questions about what the problem was, but this is the sort of stuff resolved after the fact, on the ground.
> you may have some serious questions about what the problem was, but this is the sort of stuff resolved after the fact, on the ground.
There will be questions, but there is a very strong doctrine of "A pilot in an emergency can do whatever the fuck they think is best", to the point where they are explicitly trained to ignore ATC orders in an emergency, if they don't agree.
A pilot would have to do something extremely malicious before the FAA would even start to question the choice of emergency landing airport. They don't want pilots second guessing their decisions out of fair of reprisals.
If a pilot were to call mayday and say they're landing on runway 6 everyone would be trying to ensure runway 6 was clear. The only way 6 would be blocked is if there was something already on it that couldn't be moved in time. Think of a mayday call as the lights and sirens of the sky.
Yeah--the point is that a plane under robot control like that is going to be calling mayday and everyone on the frequency is going to make way for it if possible. You make way for a plane calling mayday like you make way for any vehicle running lights and sirens--but in the sky there's a lot more ability to make room and a lot more enforcement against anyone who doesn't obey.
One way. The purpose is so that other pilots are aware that there's a problem. In a lot of US airspace there is no air traffic control, and most strips do not have anything resembling a control tower.
I think you meant to say "single pilot passenger jet" that is fully certified, and if so, that statement is not correct. The Phenom, Citation, and several others are.
I suppose GP meant to say “single engine non-turboprop turbofan/turbojet private jet that are FAA certified to operate in the US with appropriate civilian licenses”.
And while there are countless single engine jet planes and many small business jets without lavatory, there indeed aren’t many (“jet” engine && single engine && business jet) designs, let alone civilian type certified models.
Certification is the process of getting an aircraft design/model approved by the FAA for sale/use. There are 3 phases for GA commercially available aircraft, type certification (design approved), production certification (manufacturing approved), and airworthiness certification (plane tested, and ready for sale to the public)
Usually when someone says a plane has received its certification they mean it’s ‘airworthiness certification’, so the final approval by the FAA.
Each commercially ised or sold aircraft has to come from a certified Desogn Organisation, has to be built by a certified Production Organisation (in most cases the same company, aerospace legallish Airbus and Boeing have a DO and a PO which arw separate entities as far as authorities are converned), needs an Type Certificate (achieved after successful flight testing and to be redone if there are configuration and design changes) and has to be maintained by a certified maintenance organisation and operated by a certified operator (continued airworthymess is a operator thing, just don't ask me any details on that, I work on the PO and touched some maintenance stuff in my life so far).
Usually, EASA and FAA cross certify, making it easier to get one if you have the other already. Fascinating stuff, aerospace certification.
Boeing skipped the step "to be redone if there are configuration and design changes" for the 737MAX, and smoothed over the differences with software. FAA was supportive of that rule-bending, and other countries followed along.
Yes and no. They din't skip it, the FAA acceptrd and certified the new design based data Boeing provided. Boeing should have, in my opinion, completely recertified the MAX instead of treating it as just a new 737 variant.
> It also boasts the Garmin Safe Return system; where the autopilot lands the aircraft in case of Pilot incapacitation - doing everything from radio calls, selecting the appropriate airport and runway, flying the approach and landing to a stop.
The Vision Jet is also the only turbine (jet) engine powered aircraft with such a system.
It also boasts the Garmin Safe Return system; where the autopilot lands the aircraft in case of Pilot incapacitation - doing everything from radio calls, selecting the appropriate airport and runway, flying the approach and landing to a stop.