The AF447 didn't have automatic protections available due to sensor failure. Flight computers detected the failure and degraded flight controls into direct mode with less protections than under normal operating conditions. While flying on their own, pilots performed below their expected standard and there was not enough information available from sensors for automatic systems to save them.

Notably the net result was that when the pilots did the right thing (pitching down) and the sensors recovered, a stall warning sounded.

> While flying on their own, pilots performed below their expected standard

You're talking as though pilot performance is a constant. Notably these pilots had little experience flying "on their own", precisely because of these automated systems, and were thrown in at the deep end, having to take over flying under bad conditions.

This is to be expected. Pilots learn on their first single-engine prop trainer that stall horns are primitive mechanical devices based on airflow over the wing and warnings may trigger intermittently when the airflow is seriously disturbed. It's additive: blasting alarm indicates that something is wrong, but lack of warning doesn't mean that everything is right.

> were thrown in at the deep end

Shallow end. Like stall warnings, airspeed indicators are also known to become unreliable relatively often. It's like loss of cabin pressure, bird strike or a blown tire. Every pilot can reasonably expect it to happen to them, unlike the 737 MAX crashes that took place in completely uncharted territory that nobody knew to be afraid of or prepare for.

This makes the official animation at https://www.youtube.com/watch?v=n-hbWO0gL6g really puzzling. Speed keeps wildly jumping around throughout the event, an obvious sign that it's faulty. At one point, airspeed indication drops by 200 knots in three seconds to almost zero without any other indications supporting it. Everything else remains consistent. Nose is pitched up and stable. Altitude is dropping fast, vertical speed is negative. Stall warning is blasting, albeit intermittently, and the aircraft is experiencing a characteristic stall buffeting as turbulent airflow develops around wings. Why would any pilot look at that and give a nose up command? It goes opposite to their training and the flying instinct that every pilot should have.

If anything, the AF447 case shows that automatic protections should be developed further, to work under wider range of conditions than they currently do.

Had some other failure disoriented the crew instead (eg engine failure), and had the protections remained active, they probably would've saved the flight.

In which case surely the warning does more harm than good - if the warning is sounding you need to check, and if the warning isn't sounding you... still need to check.

> Shallow end. Like stall warnings, airspeed indicators are also known to become unreliable relatively often. It's like loss of cabin pressure, bird strike or a blown tire. Every pilot can reasonably expect it to happen to them

Sure, which is why it's something that should be practised under normal conditions, rather than something that you do only when it's icing.

> It goes opposite to their training and the flying instinct that every pilot should have.

But how is a pilot supposed to develop that instinct if they're not hand flying often?