Will Airbus Finally switch??

Få mig att besöka sponsorn säger jag bara... >:(

Again

Stop taking their sponsors please

I’m not convinced there’s enough subs who’re also patreon high level supporters to eliminate sponsors, someone has to pay for production that viewers enjoy, right? It certainly cant. come free. I don’t see you’re a content producer so maybe you’re unaware of costs behind production.for this quality.

No. I never touch sponsors

Disagree

I also have 1000s of hours on both 737 and A320. The thing I like the most about the 320 throttles is this. Go around and RTO. Wanna go around? Push the throttles to the stop. No TOGA button, no overtemp. Easy. Wanna reject the take off? Close the levers. No auto throttle disconnect buttons to mess with. Easy. 737 RTO was a four step process and if you forget any one of those steps and you’re in big trouble. I’d lever the levers just as they are.

Not a pilot, but long time interest in avionics, (my father designed a navigation computer used by various militaries mainly on helicopters), and flying general, From a recent video by Petter, the Airbus throttle control did seem more like an automatic gearbox on a car; fully forward to go up, in the middle to go level, back to go down, stop. The procedure to add a bit of thrust sounds rather complex, and working on the control systems in chemical plants, sounds very much like the work-arounds to do something the control system designer didn't want you to do. Surely on the Airbus to add thrust, can't you just adjust the A/P set speed or climb rate?

@@axelBr1 I’ve flown the A320 for almost 15 years and not once (apart from in the simulator) have I needed to add thrust. The auto throttle is extremely good at maintaining either the pilot selected speed or the one commanded by the FMGC. Even when hand flying the auto throttle should be left on. If the conditions are so gusty the automatics can’t cope then a divert is probably the smartest move. So in a flight after the throttles are retarded at thrust reduction altitude I don’t move them again until the flare.

I’ve got a few thousand hours in Boeings and Airbuses. I agree with the OP. Back-driven thrust levers on Airbus would be an improvement. Don’t care about the sidesticks not moving together. The “dual input” warning takes care of that.

There was a "who's flying" crash in a Boeing once.

@@thewhitefalcon8539 Once in an unusual situation vs multiple times under more normal circumstances with Airbus. It's clearly a far greater issue for them.

Yeah, it's much easier to mechanically couple center sticks than side sticks. But then you lose the advantage of getting rid of heavy mechanical component of your fly by wire system. Then again, my guess why you've never seen a 'who's flying' confusion has much less to do with the sticks and much more to do with the fact that airline training is absolutely incomparable to military aviation training.

@tringalij Agreed. My 5 years flying the C-17 pales in comparison to your 17, and I've also never had or seen any confusion about who had control.

@@SkylineFTW97 That's why as a pilot you announce and communicate when you have control of the aircraft. That's more of a failure or training and procedures than a mechanical failure of the sticks. If you're relying on the aircraft to tell you who's flying, you've already failed.

I'm a flight/combat simulator enthusiast for more than two decades now and I've used all sort of HOTAS setups, including some high-end "boutique" stuff.
That said, I'm right-handed but I've developed severe pain in my right shoulder and I'm forced to use my left hand to control the joystick more often than not, but I'm struggling to adapt and it's nigh impossible for me to fly some very agile airplanes like fighter jets from DCS with my left hand controlling the stick.
I'm perfectly aware that flying virtually is worlds apart from the real thing, but I wonder if it's a problem or concern when a CA or FO is forced to control the side stick with their non dominant-hand?

@@CapaNoisyCapa It’s something we generally pick up very quickly. Even on aircraft with yokes you would typically fly with your right hand as an FO and your left as a Captain.

@@CapaNoisyCapa An airline pilot would simply not go to work if he had "severe" pain in his shoulder.

⁠@@CapaNoisyCapa movement on sidesticks are only on the wrist, moving your shoulder means your seat position/armrest setting is incorrect. Also sidesticks movements are generally very very minimal because of the FBW characteristics of airbus

@@CapaNoisyCapa You don't normally fly a Yoke with both hands, and you don't always fly a center stick with your right either if the throttle controls are in the middle like most GA with center sticks that aren't specially built for the Air Force. You start as a student with your left hand, then use your right as an instructor (and that takes a bit to get used to, though mostly due to sight picture) Then back to your left when you fly yourself, then Right hand as an FO and left hand as Captain. Only Single Seaters and tandem's do you live your whole life only ever flying right handed.
I will say though, with a dead spring centered control, it's a lot harder to learn. Which is why it's such a good thing the FFB patent troll is done and FFB yokes and sticks can be made without licensing again.

What about left-handed pilots? And what about different combinations of dominant hand for first and second pilots?)

@@lefty2050Real-world pilot here. I’m right hand dominant, and it was a fairly natural transition when I flew a DA-40 with my left hand on the stick. I imagine the adjustment would be fairly quick.

@@lefty2050What I hear being said here has to do with differences in strength due to ergonomics (curling hand in compared to out) rather than hand dominance.

@@rascallhunter Thanks, it makes sense!

My favorite part of the gulfstream side stick is that my knee can get lodged between the stick and the tray table blocking movement of the stick. What an oversight by gulfstream.

I don't miss the yoke either.

Also safer

​@CW-rx2js really? Wasn't the side stick a factor in the Airfrance crash a few years back when one pilot did not know the other pilots input control because of a lack of visual sight which a yoke would have given. I'm not connected with aviation by the way.

the plane shouts 'dual input ' when it happens but yea , both have their own advantages ​@@Vanrides.

​@@Vanrides. After seeing what happened with AF 11 in 2022 (a b777) I'm more concerned about air France training than the system

Noted!

In short both make Fly by wire planes but generally airbus have more and stricter protections

@@MentourNow awesome!!!

Throw in how the “side-yoke” on the new Embraer E2 Jets for good measure! Please?

​@@greenesyt563The difference is called Hard Limits and Soft Limits, and underlines the philosophical differences between Airbus and Boeing in the human-machine interface.
In direct law, the Airbus has no envelop protection, whereas the Boeing 777 has crude envelop protection on its four actuator control electronics (ACE) computers, in addition to envelop protections available in Normal and Secondary control law from its three primary flight computers (PFC).

Is “the bus” actually a nickname used for these? 😂 I love that.

it's literally called air bus

@@NicholasAndre1 It is. Many pilots say "the bus" when referring to Airbus lmao 😆

I was a bit surprised this wasn't really addressed as a benefit in the video. My organization is seeing lower experience levels in new pilots than in the past, and every bit of feedback near the ground helps.

@@NicholasAndre1yep. The actual nickname is the ´bus with an apostrophe, to emphasize the shortening

Yea, cause the max force the stick senses is like 20 pounds or something, and there was no way of knowing when the pilots reached that force. So they were pulling and pulling and then they were landing with bent sticks. At least that's what i've heard.

Yeah that's seems like such a crazy decision. Like the decision an engineer might make for sensible reasons (to them) but when it's actually in use it's downright dangerous/stupid. Imagine if your car worked like that, and you never knew how far you actually had the wheel turned at any given time.

GD, not LockMart. LockMart bought GD later.

@@firstlast6796 -- It really wasn't quite that crazy. The main reason they made the change was that pilots arms were cramping after long periods in the cockpit (sometimes not so long), and they found that the simplest way to fix it was to add a bit of movement to the sticks.

Yes I also read this with the initial F16, and it was all about the force the pilot put through the stick in his grip that was needed . But of course the pilots are going to think ok I need x force, when they get to feel overwhelmed or the adrenaline starts pumping then the old instincts to pull hard…

Thanks for the info

But you don't though.

@@thegrandmuftiofwakanda?

@@Leaferr he's jelly

I fly Aerosucre and I can confirm we Fly Into Wires at the end of the runway regularly

Less fun to fly? You get paid to fly passengers from point A to point B on time without killing them. Who gives a crap if you’re having fun or not up front pretending you are Chuck Yeager?

You mean you are an Airbus computer game flyer

@@MySkyranger no...

​@@MySkyranger😂 He's the king I'd say, probably never stacked it

I’m not familiar with Airbus, but are the sidesticks in A320s lit in any way when the ambient lighting is low in the flight deck? For example - active stick when autopilot is disengaged is lit at the base and/or non-active stick is lit at the base to indicate the other is active? Some sort of visual indication seems to me to be useful (and probably far easier to implement (if it’s not already) than feedback). Btw I’m based in CLT so I’m pretty much on A320s all the time - I can always tell when autopilot is disengaged when on approach with the little “wobble” 😉 happens on others too, just feels more obvious on A320s. Less so the A330s we used to have here.

Exactly.
That would've prevented the tragedy of Air France 447.

Embraer used a comercial system that already existed since the 2000s, funny how Airbus simply ignored that.

airbus unlike Boeing doesn't need huge safety improvements

Like what doesn't cost on an aircraft!

I remember a story about how the first F-16 prototypes had sticks that...didn't actually move. At all. Since it was all 100% FBW, they didn't actually have to move, but instead just detected pressure on the stick, but it freaked out the pilots, so they put in some artificial movement.

Interesting

not just cost. For a fleet of a/c, how are you going to transition? You'll have some of the crew trained for active, and some of the aircraft with active.
I don't think it would happen, you'd have to have a separate qualification. OR make active feedback a selectable option for trained crew....

You stole my fire LOL!

Are you sure it was G-BOAC? She was a production aircraft delivered to British Airways on 13 February 1976. I flew on her from London to New York on 20th June 2003.

@THXUK you are correct it was build number 201 which first flew in Dec '73 and would go on to have registration F-WTSB which was retired at Toulouse! G-BOAC was build number 204.

Was there ever a Concorde G-AIFR?

I like your handle. The first was THX-1138...@@THXUK

00😊

"Perfect machine, but this improvement would help a lot"...sooooo not perfect. 😄

I’m hoping this video will be a push in the right direction.

mechanical/hydraulic connection isn't going to happen, but if the electronic connection can be proven safe enough to certify (which has apparently already been done for the gulfstreams) then it really should be a huge step forward in terms of safety

Back in the dark ages, when there was no feedback on home microcomputer joysticks (Spectrums, BBC Micros, really ancient history) , and indeed most people didn't have joysticks at all, flying rudimentary flight sims with their keyboards, it was common to have a little circular display element with a big dot on it that visually represented the position of the joystick (or virtual joystick). So, what you need is a circular display in the middle of the panel with a white dot on that shows both pilots what the current effective inputs are, with the dot turning yellow if both sticks are making inputs that more or less agree with each other, and red if they are opposing each other. Then if the forces end up opposing for more than say 10 seconds, sound a buzzer.
The good thing about this is that it would be easy to retrofit to legacy aircraft...

Take a look at the active side sticks in the Symmetry Flight Deck on the Gulfstream G500, G700, etc. They do exactly what you're referencing without a mechanical linkage. Works great on those applications.

I don't think it's going to happen (again), because on big airplanes, it adds a massive amount of weight. Therefore, I am almost sure that fly-by-wire-only will stick around for a lot longer. However, eventually fly-by-wire will probably get transmitted via optical fiber. It is a lot lighter than the copper wiring and it is immune to EMI problems. However, first it has to prove to be reliable enough.

He has

He already has a video on the subject

He has done it, though watching the senate hearing last week where many people seem to be under the impression that 1500 hours is beneficial was shocking to me.

Definitely interested in the FBW differences and how they affect safety. I've learned so much from your videos, and it's fascinating to hear about these magnificent protections that exist - and what their limits are. The design choices are so critical, and there's no single obvious answer.

Scare Buss

Boeing departed from direct control with the MCAS. Cannot understand what (oversite) made that possible. At some point, one switch should give the pilot total control over an airframe assuming the design is stable. I would also hope that any such system would also ensure that a reasonable forward CG is established asap is the plane is in a neutral or tail heavy configuration.

@@iancormie9916 MCAS is only supposed to come into effect to assist with stall recovery, and even if it acts erroneously, pilots are now trained in overruling it. That was part of the recertification process, so that pilots wouldn't lose control like those two accidents.
That said, the 737 (even the MAX) is still direct control. It is not until later aircraft that fly by wire was introduced

Clicking only 2 buttons found on the same panel would give total control to the pilots in an airbus

Have a few friends who flew helos professionally and somehow ended up in airbus machines. They find them a piece of cake and very intuitive.

I also flew few thousand hours with various aircraft with feedback from three decades, now A320 series. Feedback would feel completely useless to me, maybe it would help with trimming in direct law, but if the aircraft is in direct law, I have my doubts that the feedback system would not be working anyway.

If you are gifted with the aptitude to be able to fly a military helicopter, I believe flying any sub-sonic aircraft would be relatively easy for you.

This is bollocks though. Sticks are *at least* as precise as yokes and probably far superior - given sticks have been ubiquitous on fighter aircraft since atleast WW2, and for a good period of that time the ability to actually aim their gun with the thing has been critical.

Dual input warning is also displayed prominently in their primary flight display. If they no longer look at their instruments, then something is really off anyway. Speaking of Air France, they managed to perform unrecognised dual input in a 777 on a beautiful day. BEA in their preliminary report made a veiled but very acid remark at Air France and their capabilities.

100% agree. The inability of the pilot to feel through the controls that they are fighting another pilot's input is a critical point of failure. It was a huge factor in the AF 447 crash, among others. I'm really shocked that making the sidesticks move together has not been made mandatory 30 years ago - it's just such an obvious and dangerous weakness.

I just can't believe that anyone could ever have thought that designing an aircraft with no feedback in the control stick was a smart idea...

@@geezee1946 The service record of the entire Airbus family is a pretty good ringing endorsement for the design.

@@geezee1946 Every modern fighter aircraft has absolutly no feedback in the control stick. Do you really think they are all wrong?

Excellent English with a hint of French syntax.😊

@@englishcitystone1663 I was just thinking, is it me?, or did that statement make no sense at all.

You DO know that Petter is a B737 pilot right?!

Read the report again. It was just short time when that happened, and again, why on earth the relief captain used side stick without pressing take over pb? If you don't follow any procedures, you gonna get yourself and others killed even with synchronized sidesticks.

The relief pilot was actually a more senior First Officer who actually had the most experience flying that model of Airbus, even more than the Captain.
Unfortunately, the Airbus side stick (till today) isn't active and the the most junior pilot was the Pilot Flying (PF) in the right seat. He started the cascade of bad actions that led to the catastrophe by pulling the jet up to very high angles of attack & stalling the plane, and he continued making that mistake.
The more experienced Pilot Monitoring (PM) in the Left Seat could hardly control the stick as it was the less experienced pilot in the Right Seat who kept hogging the side stick and making exaggerated movements with his side stick, even though the PM tried to towards the end.
Airbus computers simply gives up when it encounters conflicting input.
Crucially, the PM couldn't see the inputs made by the PF, because Airbus still have yet to install active side sticks that moves in sync with any input.
At the end, it was poor & insufficient emergency training in the simulators.
The PF was hasty in his response, and made very bad idiotic decisions.
Had he waited a minute for the ice to melt off the pitot tubes so airspeed can be read, and kept the plane on level flight (ie. don't nose the jet up unnecessarily), it would not have triggered the cascade of disaster.
Even student pilots are taught to watch their angle of attack, and to resist pulling the nose up as it will induce a stall.
Just aviate, and keep the plane on level flight. Get back to the basics, instead of inducing loss of control with panic moves.
Obviously that PF failed miserably to even do that.
It was also the Captain's decision to allow the most junior pilot to be the PF before he went for his rest.
I believe that had the PM been the PF, the tragedy would have been avoided.
Given the equatorial storm cells that exists, the more experienced First Officer should have been the PF, at least until the jet is clear of them.

@@therealrobinc since when the computers “give up” with conflicting input? This is nonsense, on top of that there shouldn’t ever been conflicting input especially after first warning of dual input. The one wanting to interfere should always press takeover pushbutton and take controls. Neither in the cockpit realized the stall and neither of them unloaded the aircraft.
I agree, that probably the situation would have been avoided by replacing the PF before lost of control happened, it’s likely to be avoided even with another “fresh” first officer with similar experience.

@@KoiranenAerospace Read the official report.

@@therealrobinc, how many times I have to read it? The flight control computers don’t give up and there is no information that any of those would have worked differently than described.

The old saying only the good die young I feel applies to the Arrow, it never had the chance to achieve great things, and that has become its legacy. Had the program continued its problems would have also become transparent, and that never happened either, a track record would make or break an aircraft and the Arrow never got that chance either way. Therefore we remember it for the potential it never achieved

As a proud Canadian, don’t forget the mention of the airbus a220, also a Canadian product ;)

The problem with the Arrow is there is a lot of mythos that surrounds it that has no basis in reality.
First is the idea that it was the first FBW aircraft. It wasn’t. The Avro Vulcan was which is where Avro Canada got the design.
Next is the speed. Yes it could have gone Mach 2.5 (not any faster or it would have melted). Then it would have to immediately return to base because it had no fuel. It was not practical and to make it practical either extra fuel or weapons would have had to be mounted externally.. negating any speed advantage.
The C-Series is the best plane Canada ever produced… period. Not only is it advanced but it’s competitive and profitable (now that it’s away from bungling Bombardier).

As a Brit it reminds me of the TSR-2. Like the Arrow it was the US that put pressure on the government to cancel it, offering a good deal on a US plane. A trick they repeated when the UK developed satellite launch capability. The US offered free launches on their rockets, an offer they withdrew after the UK scrapped its rocket.

@Bartonovich52 Your comment is based on no basis. The Arrow was designed as an interceptor for Russian bombers from coming to Canadian airspace to the north. Avro was already working on designs for a future Arrow if the project was a success. Britain requested The Arrow for research purposes after the cancelation, but the Canadian government instead decided to scrap everything to do with the Arrow. It was ahead of time, and we ended up buying the Voodoo which was rejected before the Arrow project started because it didn't meet the requirements for the RCAF, but the Arrow exceeded all their requirements and more. I highly recommend the book "Avro Arrow: The Story of the Avro Arrow From Its Evolution To Its Extinction". The Arrow would have been a poor dog fighter, but that wasn't its purpose. We will never know its full potential and where Canada’s aerospace industry would be today. Tens of thousands of brilliant Canadians lost their jobs when the cancelation occurred. Lots of engineers from Avro Canada went to Nasa and worked on the Apollo program. You must not be a Canadian. We are now completely reliant on US aircraft for our defense.

Active side sticks and throttle levers that move in sync with pilot or computer inputs (and active shaker) would solve most of such issues.
Not having active side sticks is that single point of failure that caused Air France 447.
Airbus alone is responsible for this design disaster.

​@@therealrobincair France 447 was definitely not caused by a lack of force feedback sticks lol.
It was caused by both pitot tube icing and frank pilot incompetence. Dual control input was a side issue at most.

@joestevenson5568 in air safety, NO issue is too minor.

Source? True those sticks feel totally different from the 320s. Not saying this is determinative of course but I've peeled back the boot of the 220 stick and haven't seen any servo motor being there. So please share your info on that, would be quite cool.
Even the Globals don't have active sidesticks I thought, and they use the same setup.

@@ZS-rm5vnI fly the A220 and can confirm, they have a force feedback system that puts opposite force when out of trim, they also shake when the plane is about to stall. Still no interconnection between a stick and the other though.

WRONG.

The problem with active sidesticks is that they will then be expected to provide feedback from the flight envelope as well. So, the feeling on the sidestick might not be clearly identified as 'Dual Input'

@Chris_1024_ But it is unlikely to they recommend something which is not implemented or accepted in general aviation yet. For example if some A320 crashes because of lost both engines, nobody can say ''we recommend 4 smaller engines on A320''

@@kadrikarakoc807 It is very likely that recommendations are not implemented or accepted generally; if they were, they would already be in place and there would be no need to make the recommendation.
Most of what goes on in a cockpit these days exists because of recommendations made in a time when those things weren't part of cockpit instrumentation or procedure.
And why on earth would accident investigators care about acceptability of the recommendations? Are they really going to say, "doing X would likely reduce the chances of an accident, but we _don't_ recommend you do X because, well, nobody does it; better just to let aircraft keep crashing"?

​@Chris_1024_ Sully disagrees with you. I'm going with his opinion.

@Chris_1024_ Right. The fact that the right seater was continuously stalling the airplane as it fell out of the sky, and no one else in the cockpit could figure out what was going on.... probably not relevant at all. A mere footnote, I would say.

yessss

The HS Trident started autoland trials in the sixties and carried out thousands in passenger service over the years until it was withdrawn from service in the early eighties. Many cat 3 landings were carried out in service. The accuracy was stunning, including in crosswinds when the drift was “kicked off” (misleading phrase) just prior to touchdown. Remarkable since it was pre-digital: the air data computers were electromechanical, triplicated autopilot systems.

@@Wol747 family friend was a 747 captain when I was growing up. He would say that if they did a hard landing they would blame the auto landing system. 😂

I heard the same thing as UAL was flying 767’s, 757’s, 737’s and 727’s and did not want the training burden of sidesticks for the 777. Reduced training burden a la Southwest.

That was a main marketing point for Boeing. They went to their customers and asked what they wanted. Flight deck, maintenance, cabin amenities.

Maybe, but I would find it highly strange if an airline would NOT want this.

@@MentourNowcost unfortunately often is the decision. Many airlines are cheap and profit first. All the equipment, maintenance and training costs would be a big factor in the decision.

@@MentourNowI agree that airlines may want it, but they can keep their existing aircraft in service while the pilots are being re-trained on the active sticks.

Just because something is older technology does not mean it is a dinosaur to imply that it is not relevant. I realize you are joshing and digging, but the Boeing design is just as good if not better in many of the people's opinion, mine included.

Se this is not banter just 'plane' rude.

Boeing is the one who should learn from Airbus not the other way around

Just remember alligators are dinosaurs and they’re still around!

The worst thing is where the embraer bicycle wheel pivots. It's below the Y formed by the handles... probably good geometric and engineering reasons for it but on an ergonomics consideration side, banking and crosswind inputs can result in knee bashing, somehow more so than the Boeing UU yokes.

I think your father in law might be a bullshitter.

You are soooo right. A true force feedback system while the A/C operates in normal law is big design challenge. But once it goes to direct law, not having that sort of feedback is a catastrophe in the making.

Just the argument of Up/Forward is on Vs. Up/Back is on would be glorious!

@jakebrodakype And in your opinion, between Boeing vs Airbus, which UI is more valid?
And how would you remediate the deficiencies of either?
Thanks.

I don't know why this popped up in my notifications 2 months later. (Yes, Utube, you also need to work on your human-machine interface!) IMHO, abstractions, be that in the aviation industry, ore elsewhere (specifically programming / system designs) are both a boon and a huge problem. First of all, if all you learn to work with is abstractions, with tons of guard-rails surrounding you, what can you learn? The pilot, captain of a ship, operator of a power plant or else, NEEDS to understand the basic system functionalities. More than understand: They need to be *ingrained* in that person's mind. Automation, like in the Airbus (but also other manufacturers) destroys that. I drive old cars, Mercs from the late 80ies to early 90ies. Zero computer support for anything. And I get (occasionally) claps and ovations when I can park these cars into a place that the automatic parking of a Tesla has given up on...

@@woodwind314 They need to not just be ingrained, they need to be INTEGRATED into the system. To “feel” it, to “wear it”, to make it an intuitive part of themselves. F-16 and F-22 pilots don’t seem to have a problem, but they are a small specially selected subset of pilots. Airbus are driven by any rando climbing the ladder, be they Bob Hoovers, or What ever the opposite of Bob Hoover is. (Larry Eureka?) So more engagement would be better, except the goal is to rely 100% on the automation, so the autopilot controls have more thought put into them than the side sticks.
Hell the lunch trays have more thought put into them.

Airbus way more advanced.

@@EvoraGT430 There's a reason so many old boeings are still in use, as opposed to old airbuses

​@@cherrypepsi2815the company has been around a lot longer which would contribute to that also

Airbus has no physical feedback to the pilots whereas Boeing controls move to match the flight control movement. In short. Pilot moves control, picked up by sensor, sends signal to computer, computer checks it is within safe envelope, sends signal to control PCU which moves, sensors sense the movement and send feedback to computer which moves control column to match. It is similar with throttle and stab trim so pilots have physical evidence of what is happening. Airbus keep it a secret. lol

They do, but they are all now very expensive HOTAS setups (Close to $1000 plus last I checked). I find it much easier to use one than a normal joystick. Mine's about 10 or 12 years old when you could get them for a more reasonable $200 or so.

The CH joystick and throttle combos I got through eBay were pre force feedback. Secondhand through the internet. I hope they are around...

Every single HOTAS manufacturer has force feedback sticks.
Winwing, VKB, Virpil (in the works), even Moza is coming out with a base for Thrustmaster's Warthog.

Just a random technocratic thought. Unreliable airspeed/altitude is indeed among the most dangerous sensor failures, and so very, very difficult to train for. And it relies on such vulnerable hardware! Two tiny little holes in carefully chosen places. Can you see from meters below whether a wasp built a nest overnight? Did someone use _the correct procedure but the wrong kind of tape_ while washing the airplane? And the real solution is to have a larger number of static systems, but you're never going to certify more neutral pressure points and put aneroid boxes in everywhere.
I've read a lot of James Albright's code7700 and he suggests learning what different airspeeds sound and "feel" like in your aircraft. But, when he wrote that he was flying private Gulfstream, i.e. in one particular aircraft for years at a time. It's much less relevant if you're climbing into ten different 737s or 320s on ten different days, and in the nightmare where suddenly all the numbers on your PFD stop responding to what you do, you're supposed to Zen out and use the Force?
It seems to me that with modern hardware and software, it would be relatively easy to have a slightly less precise but nonintrusive, more reliable backup system. It could produce a _good enough estimate_ of IAS and AoA with some strain gauges glued on the wings/stabs and the control surface actuators. Compare those forces to the control surface deflections which are already very precisely and reliably measured, and a couple simple empirical lookup tables can spit out numbers good enough to keep the wing flying, prove and alert if one or both statics have failed, and get you home safely. I admit I can't see how to get useful altitude, at least in a nonpressurized craft. IAS versus longitudinal strain on the prop bearings/nacelles, perhaps. And GPS is probably better at that than airspeed or orientation in unknown winds aloft.

Good point all around. Especially, the note on the vulnerability of the pitostatic ports.
These things will remain vulnerable, for some time to come. so how to deal with them? Sound van never be a replacement.
The mitigation strategy so far has been "pitch and power". and that DOES work. But it does require the pilot to know these things and remember them. An AoA indicator should have been part of any het's cockpit from the very beginning, but it hasn't been. And that is still an important reason, why AoA is such a mystery for many pilots.
So, firstly, put AoA indications in a cockpit, in an easily digestable format, and secondly train pilots on how to use them. Not only for emergenvies, but in day-to-day-operation.
The did it on Concorde, why not do it now?!
As far as static ports go, the failure modes of the statice ports are way fewer in number, than those of the pitot system. On top of that, static port pailures are way less dynamic. So coming up with a "safe" mitigation for that is relatively easy.

Those yokes have got be so annoying, especially considering only a fraction of the time are they being used for manual flying

@@christerry1773, especially those yokes that are attached to the floor, so even your leg movements are restricted (instead of Cessna 152/172 style yoke that comes from the instrument panel)

@@KoiranenAerospace or the Phemnom

@@christerry1773, yeah, that’s good in emb500/505 design. Otherwise the flight deck is a bit too small, even I flew it with the rearmost seat position and I’m not a tall guy. My phenom type rating expired few months ago as I don’t need it anymore, now flying only A320 series.

@@KoiranenAerospace I flew in a phenom before at the company i work for. If they did single pilot i'd get to set up front. One time, a pilot let me take manual control at cruising alt. I knew the guy but still.....that was Amazingly fun!

That's what I was about to comment on: side-sticks are great for avoiding feedback between the load factor and the commands, since the weight of the pilot's arm is resting on the armrest and not holding onto the handles. I imagine it's less important for airliners, except maybe in severe turbulence.

*yoke

@@c17nav good catch:)
Unless it was on purpose - I can very well see how a yolk doesn't agree much with high-g manoeuvres.

@@melainekerfaou8418 it was a good catch, I hadnt even noticed. @c17nav thank you for pointing out my mistake!

Hate to tell you this but, yolks are for eggs, yokes are for aircraft, animals or buckets. :P@@melainekerfaou8418

That is a retrogressive idea. The whole concept here is the eventual elimination of aircrews. These companies are not interested in what will make more sense for pilots.

HOTAS also works with a center stick. The point of HOTAS is to put all necessary input deviced you will ever need during a dogfight or a target run on either the stick or the throttle.

@@shi01 it probably would but i don't think it was ever made that way. it also would give a more weird and unstable position of arms. having the joystick on the right and throtle on the left allows you to do all the basic functions without moving your hand, which would also be difficult at high G's

@@michaelfreiberg8057 Actually all fighter aircraft since the F16 use a HOTAS setup. Some like the MiG 29 were converted later. Others like the F/A-18 or Gripen or Eurofighter had it from the start.

@@shi01 i said i don't know of a fighter with center stick

@@michaelfreiberg8057 F15, F18, Gripen, Eurofighter, MiG-29 all have center sticks.

I have nothing against side stick or fly by wire. But I am a strong believer in force feedback. There are only pros, no cons. Another comment points out that's exactly how the side sticks in the C17 work.

The aircraft should still be able to sense dual input by comparing input force on the sticks and warn the pilots.

@@kwikdahl Sure, but that it already does. Apparently without much success, because when that happens, pilots are under stress and don't listen to the call outs anymore.

Glad you liked it!! We do our best

What?

What?

@@MentourNowso if one pilot moves their sidestick half left, the other pilot also moves their sidestick half left, the Airbus will behave like it is a full movement to the left. Adding the movements together. Not a half left like it would if averaged

​@@tomstravels520you might want to check your maths

If they are moved in different directions though (e.g. 10 deg left vs. 20 deg right), it will result in the average if I understood correctly (5 deg right in this example, please correct me if I'm wrong and it results in 10 deg right).

Mentour knows exactly what he is talking about. XL888T had An A320 end up in direct law where the pilot was trying to avoid stalling by pushing the nose down but in the heat of the moment he didn't realize that the autotrim left the horizontal stabilizer at the maximum nose up position, so the stabilizer just pitched the plane back up. Know why? Apart from the fact the "Use Man Pitch Trim" indication on the PFD being missed, there's no artificial control feedback pressure that could have told him the stabilizer was out of trim. That "needlessly heavy fake control feel and the constant need to trim" could have been the last line of defense that could have saved that A320 from stalling.
That heavy fake control feedback may have made the pilots of AF447, Air Asia 8501 and S7 5220 avoid stalling with a heavier control force required at the higher speed to pull back and not having an autotrim maintaining nose up attitude with protections off, giving increased awareness of aircraft attitude and energy state. He even spoke about this in his S7 5220 video. Holding the stick constantly to see if the plane will maintain attitude is only fine if you ain't in a confused/stress state, not about to stall the machine and can think logically with the use of the stick and trim wheel. Don't need to be an Airbus pilot to realize the disadvantages of their FBW system.

I've flown a kite. but other than that, I haven't flown anything more advanced than a video game. I do think airbus pilots would benefit from an active stick capability. feeling what your vehicle is doing makes it easier to maintain situational awareness.

The switch from left to right does not differ between yoke and sidestick. Altough you can physically grab a yoke with either hand, in all critical phases of flight you just use one hand - because the other one has to be on the throttle.

There is no difference as of which hand is at the flight controls between yoke or sidestick. Pilots in the left seat use their *left hand at the yoke* or sidestick. The right hand is busy otherwise, in both setups. Pilots in the right seat have their right hand at the yoke or sidestick, the left being busy otherwise. As far as I understood Petter, changing the seat and your hands isn't that big of a deal. Certainly interesting to know though.

So does majority of bicycles.

What kind of Airbus girl are you? Since when is the table the bigger advantage of having a sidestick?

@@miks564 she's saying that the table ISN'T a bigger advantage lol

@@Hgtv-ok3gl She said the table isn't everything as if the table was the advantage of having a sidestick.
The table is just a convenient desk taking advantage of the space left.
The advantage of side sticks is to provide an easy way of providing input to the computers. We just need one hand and small movements and we don't even need to care much about precision, because that part is left for the computers.
Where she's right is in the feedback feeling of the yoke on 'analogue' planes like the 737.

@@miks564ohhh

I would hope so too but they would have to change completely how their aircraft handles from a path maintaining autotrim to a trim for speed control laws like in a boeing or A220 which is the natural aerodynamical behavior of an aircraft

C-17 already does that

Maybe they can partner with Toyota and Hyundai and give fake manual transmission and broom-broom sounds as well

To be honest, that’s less a fault of the FBW and more the F16 using a force-sensing stick. My understanding is that the F16 was designed with a force-sensing stick because it was easier to use under high g-force; not typically a consideration given to civilian aircraft.

That's for an engineer to answer this guy is just a stick monkey.

@@thegrandmuftiofwakanda 🤣🤣brilliant!

Yes, that’s an EXCELLENT point.

Reliable, proven tech is a good idea for carrying hundreds of millions of passengers all over the world every year.

The cost is astronomical. Many of the things in our lives are not latest tech. If we did that airliners would be replacing every few years.

​@@jamesengland7461true, but I'd argue that the tardiness for more sophisticated tech being introduced has more to do with other factors - like cost - than the older tech being more proven and reliable. After all - to achieve certification, the stuff has to be proven reliable already.

Yes, let's quickly replace those pilots with some AI, how hard can it be?
Or maybe that's not such a good idea in the end. I really don't get why people are going so crazy over AI, especially when you see how poor current AI is actually performing. There's a lot of misconceptions about what is and isn't possible with AI today but people see something that looks nice and shiny from a distance and they immediately want to bet everything they have on it. failing to realize that we are only at the beginning of something that will take decades to perfect.
A fine example is Elon Musk and Tesla. He promised full self driving cars and robo taxis to be available by 2018. Many companies also jumped on the hype train. A lot of those have gone bankrupt, others are struggling and even Tesla has stopped saying it will happen soon. OpenAI launched ChatGPT3 and took the world by storm, so many people started asking it question and simply took the answers coming from the system as being trustworthy. Boy, have we seen what a disaster that can be.
No, when you are controlling a vehicle that can carry hundreds of passengers and where one mistake could end even thousands of lives, you want technology you can trust, where you can be certain that everything is tested and reliable. You don't want to rush in the next hype just because it looks good.