Did you consider a Failsafe for that?
Failsafe Operating Time: 5-15S.
Second, you lose your Failsafe;
Tezos/ Dfinity/ Failsafe.
He did these things, believing there was a Failsafe.
Failsafe: automatic landing or return-to-home upon loss of control signal.
For heavy duty cranes a second brake can be mounted to ensure Failsafe operation.
A stickier problem is industry agreement on the Failsafe mechanism for safety critical systems.
Failsafe magnetic or hydraulic brakes of
150% torque or more are fitted on shaft extensions.
Safety Assurance: Standard is a redundant control circuit with its own controller and Failsafe contactor.
Spring fail safes are currently used, but in an all-electric system,
you would move to battery powered Failsafe systems.
Different devices will require slight variations in size,
but this 8.5 by 11 inch setup is a pretty Failsafe option.
It's true that you can't change the consensus itself- there's no in-protocol on-chain governance(which I think is stupid,
and Tezos/Dfinity/Failsafe will make way more sense and move faster), but it doesn't matter.
Although no modus operandi is Failsafe, and no amount of training or experience can ensure success, as a historian
I am convinced that the risks of making predictions can be reduced through the employment of a few simple historical tools, and by knowing a bit more about the past.