In this incident, as with Air France flight 447, pilot and co-pilot were holding the controls in opposite directions, and the software averages the input. In this case the warning that the controls were mismatched was not of sufficiently high priority to be issued (other warnings were taking precedence: You're about to crash). This user interface just continues to appall me.
With mechanically joined controls, it is impossible to have this happen. I think if I were designing a modern aircraft, I might retain physical linkage for just the reason.
I always wondered who even decided that averaging the input is a good idea.
It sounds like it makes sense at first glance, but if you think about it a little bit more it actually doesn't make any sense.
The average of two inputs is basically garbage, it doesn't do what either of the pilots want to do and it breaks feedback for both of the pilots.
After watching tons of Mentour Pilot videos (who, by the way, covered [0] this incident) I am convinced that this feature shouldn't exist at all.
And no, I don't think that I'm smarter than people who originally designed this system. I just think that this particular feature was not designed at all. It seems like an afterthought. Like, "hey, there is this corner case that we haven't thought about, what should we do if both pilots input something on the controls? - well, let's just average it, kinda makes sense, right?"
> After watching tons of Mentour Pilot videos (who, by the way, covered [0] this incident) I am convinced that this feature shouldn't exist at all.
There is some selection bias at play here. We don't know how many situations happened where averaging the input was the right thing to do and avoided an accident, as Mentour Pilot does not make videos about those.
I'm not saying averaging is good. I have no idea. But a number of videos about crashes (which I watch and think are awesome) are not a good reason to form beliefs.
> I don't think that I'm smarter than people who originally designed this system.
This sentence says one thing, the other sentences in your comment say the opposite. It certainly reads like you think you're smarter than those people. Which as far as I know could be true, no idea. My point is a disclaimer does nothing if you actually do the mistake you know you should avoid.
Yeah, that's a good point though, of course in most situations it is more urgent so this choice makes sense. BUT in this case not being aware of the dual input made the GPWS worse. So in this paricular case it was not.
Personally I would do a different type of alarm for dual input, like a big red light somewhere. Or just not allowing dual input somehow (always requiring the use of the takeover button).
I mean, what choice, besides averaging, would make sense? Completely disregarding one pilots input seems worse, and averaging is what happens in a mechanically connected system. The crucial difference is that in that case the pilots can feel that this is happening. I don't know what sort of force feedback the Airbus sidesticks provide, but this lack of feedback seems to me to be the real root of the problem, not the averaging itself.
Disregarding one pilot input seems better: one pilot can correctly fly the plane while the other does nothing vs two pilots getting confused and flying planes into the ground. Even better would be a system that somehow follows the "I have the stick" procedure, although I don't know if that is possible.
You are right though that either way force feedback make sense. You could even just do a buzzing if there's dual inputs, like when you take your hand off a lane-controlled vehicle.
Say one of the pilots is suicidal, or had a heart attack and is unconsciously while holding the stick in the wrong direction, how does the airplane know which input to ignore?
Mechanically joined flight controls typically have a linkage designed to break when sufficient force is applied. This can cause equally disastrous results when the two pilots are putting in different control inputs.
My dad taught instrument flying in fighter jets. He'd ride in the back seat, with the student in the front. The controls were linked together.
Against regulations, he carried with him a length of steel pipe. The problem was sometimes a student would freeze and hang onto the controls with all his might. The pipe was so my dad could beat him on the head until he let go, and save both their lives.
Fortunately, he was never forced to do this. But he said "I'll be damned if I let any student kill me!"
P.S. the thing about instrument flying is your senses lie to you, and you need to rely on the instruments. A green student is at risk of panicking and believing the lies his inner ear is telling him (spacial disorientation). When JFK jr crashed in the mist at sunset, my dad passed by the TV when they reported it, and said "spacial disorientation". It's killed a lot of pilots.
A major part of learning to fly instrument is to learn to ignore your body screaming at you that you're flying upside down.
And the reason they have this, is so that pilots can overcome a jam by breaking that linkage. Only half the plane will then be responding to the controls, but that's much better than none.
The rationale for this (I did some work on this system at Boeing) was that the pilots would not be fighting each other for control, they would be fighting a jam.
Flight controls at the time were not designed for dealing with a crazy or malicious pilot.
More concretely, the warning that took precedence was the GPWS telling them to PULL UP. If this didn't convince the captain that flying towards the sea was a bad idea and he should in fact pull up, I'm not sure any other technical measures would have?
In this case the pilot attempting to start flying failed to yell "I have control!". They should have only grabbed the stick after the pilot currently flying said "You have control!". It is quite obvious that the pilot that grabbed the stick simply panicked. If the controls had been linked the two pilots would have fought each other and would likely of produced an equally bad result.
In the AF 447 case the pilot not flying did the request, but did not wait for a response before fighting on the controls. The pilot not flying eventually got control, but the pilot initially flying panicked and started fighting on the controls.
Failure to properly request/acknowledge control handover will often create the opposite situation where each pilot thinks the other is flying. The results of that situation will be the same regardless of any mechanical control linkage.
> The results of that situation will be the same regardless of any mechanical control linkage.
I highly doubt that. In a fly-by-wire plane with mechanically linked controls the only possible source of force feedback on the controls is input from the other pilot. We humans have a very long evolutionary history of wrestling for control of the same stick. We can recognize that situation on a very deep instinctual level. We can also instinctively realize “that other guy is really pulling hard… am I in the wrong here?” If you remove the force feedback and just average the input then all this is lost.
If the pilots can't resolve their difference of opinion verbally, things will not go better when they try to physically overpower the other. There are many accidents in the Admiral Cloudberg corpus that involved pilots fighting each other on mechanically linked controls.
> If the pilots can't resolve their difference of opinion verbally, things will not go better when they try to physically overpower the other.
The primary problem is not that the pilots can’t resolve their difference of opinion, it’s that they are not aware that they have one.
> There are many accidents in the Admiral Cloudberg corpus that involved pilots fighting each other on mechanically linked controls.
How many of those accidents were in fly-by-wire planes? Again, the primary issue here is lack of feedback / ambiguity. If the plane is not fly-by-wire then it’s very hard for the pilots to understand that they are fighting each other, and not the plane.
With mechanically joined controls, it is impossible to have this happen. I think if I were designing a modern aircraft, I might retain physical linkage for just the reason.