Devil's-advocate: fine, OK, we still need pilots, for the time being. But do they actually need to be on the planes?
In the case of two recent crashes (AF447 and this one, assuming pilot error turns out to be the cause as seems likely), it's safe to say that a computer would've easily done a better job than the pilots.
Would be interesting to hear Capt. Sullenberger's take on the question.
If you're going to use remote pilots to deal with anomalous conditions, you'd better have an emergency electrical supply that'll keep your remote control running for however long it'll take to glide at the plane's maximum range. You'll also need a communication system that'll work over the ocean, in poor weather conditions, while the plane is having difficulty maintaining a stable attitude (good luck maintaining the alignment of a satellite dish when the autopilot disconnects due to a sudden upset).
On the other hand, if your onboard autopilot is in control of everything, you run the risk of having autopilot bugs causing an accident - indeed, a software issue in the airbus flight protections (which, unlike the autopilot, are always active unless a very severe system failure occurs, and can override the pilot's inputs) has caused an incident that resulted in passenger injuries: http://en.wikipedia.org/wiki/Qantas_Flight_72
While none of this is impossible, it's certain to be expensive, heavy, have its fair share of bugs at the start, and by quite difficult to get past the regulators. Not to mention passengers probably won't be very happy being on an unmanned plane, even if the system really was perfect. So it's easier in the end to just put pilots on the plane.
If you're going to use remote pilots to deal with anomalous conditions, you'd better have an emergency electrical supply that'll keep your remote control running for however long it'll take to glide at the plane's maximum range. You'll also need a communication system that'll work over the ocean, in poor weather conditions, while the plane is having difficulty maintaining a stable attitude (good luck maintaining the alignment of a satellite dish when the autopilot disconnects due to a sudden upset).
(Shrug) Sorry, but given the complexity of the rest of the aircraft's systems, none of these engineering tasks sound impossible. 40 years ago we did this stuff on the freakin' Moon.
Although yes, I tend to agree that any move in this direction amounts to fixing something that isn't broken. (In the "freakin' Moon" example, the human pilot still had to handle the tricky part.)
> 40 years ago we did this stuff on the freakin' Moon.
...
> In the "freakin' Moon" example, the human pilot still had to handle the tricky part.
Since you're apparently well aware that the Apollo missions were conducted with manual docking and landing, why bring it up?
Especially given the relative simplicity of "final approach" on the moon, given the lower gravity, zero wind speed, and slower pace, I don't understand what your point is.
What "stuff", though? The moon landings were conducted by a human brain in control of a (mostly[1]-)fully-functional machine. How does that translate to fully automated landing of an atmospheric aircraft already experiencing a malfunction?
[1] Actually, the Eagle did experience a computer malfunction that almost caused an abort to the landing before an engineer said they could ignore it. You want a computer to judge for itself whether it can still safely fulfill its mission while malfunctioning?
For further terror, consult the Apollo 12 lightning strike. When the computer is FUBAR, how do you propose it fix itself?
So, just to make sure I don't misrepresent your position, you're saying that the people who built and programmed this hardware ( http://www.space.com/16878-mars-rover-landing-sky-crane-guid... ) couldn't safely land a 777 in SFO (or, for that matter, an A320 in the Hudson) any day of the week. Is this the case?
What part of the skycrane experienced serious damage or malfunction that the software corrected for?
The whole point is we're not talking about when things go according to plan.
For that matter, how many times has the skycrane been used? What is its safety record? If you go ask the guys at JPL how many times out of 1000 they think it'll work perfectly, what will they say?
Assuming we could make such a system secure and unhackable as well as unjammable, why would we want to? To save some money? I would rather pay a little more to have the pilot sit in the same airplane and have his life on the line as well.
I just find it fascinating how obsessed people seem with getting rid of pilots. You don't often hear the same discussion about train or bus drivers, or doctors for that matter, even though we are just as close to having automated robotic surgery and expert systems have been around for a long time.
Might it be possible to have a "house pilot" at each airport that could be patched in during landings or takeoffs? Latency could be made pretty negligible with a radio link only a few kilometers long at most.
That wouldn't do anything for patching in pilots for planes in the middle of the pacific, but I wonder how often that would be necessary.
In the case of two recent crashes (AF447 and this one, assuming pilot error turns out to be the cause as seems likely), it's safe to say that a computer would've easily done a better job than the pilots.
Would be interesting to hear Capt. Sullenberger's take on the question.