I thought MAF measured Mass of Air to compensate for barametric and air density? This is coupled with Temperature to determine mixture and O2 sensor will determine if the mixture is burning efficiently. So… if we jam more air pressure, one gets more flow through heads and more everything is more HP. The air induction model, therefore yields more efficiency over non-induced flow.
While I don't map ECU for money, I did flip my air cleaner lid on Oldsmobile 455ci engine as young man and it was glorious.
My thoughts - and they are probably wrong....
The ECU needs to predict how to fuel the engine for a certain condition. It will not make the right decision if the pressure in the plenum is not predictable.
Assume pressure is directly proportional to roadspeed. (I don't think it is, it is probably a square law, something like double the pressure for four times the roadspeed.)
At 15mph and 3000rpm in 1st gear, close the throttle, the flowrate drops to zero and the pressure is 15.
At 30mph and 3000rpm in 2nd gear, close the throttle, the flowrate drops to zero and the pressure is 30.
At 55mph and 3000rpm in 3rd gear, close the throttle, the flowrate drops to zero and the pressure is 55.
At 2000rpm, you fully open the throttle. The instantaneous pressure in the plenum is as above, and the first suck will be at that pressure. What should the fuel supply be? Should it be metered for 15, 30 or 55? Which ever you choose, it will be wrong for the other two.
I think it is possible to have air induction, but it would need the ECU to be calibrated to include roadspeed.