Determining Stall Airspeed

I'm trying to come up with a safe procedure to accurately determine stall airspeed for a plane with an airspeed sensor and ardupilot logging.  Any feedback on this technique?

1. Achieve stable level flight in full manual

2. Reduce throttle

3. Increase angle of attack to maintain altitude

4. Goto Step 2. until no longer able to maintain altitude

5. Stall has occurred, increase throttle and reduce angle of attack

6. Review flight logs to determine airspeed when control authority was lost

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  • A key requirement, I believe, is to place the pitot head away from the fuselage or wing such that it is in free air. I am using a hollow carbon tube as a boom extended from the nose to assess my stall speeds. Otherwise, I am following the method you describe above. I am then repeating the procedure in FBWA to establish if there is any difference.

    good luck

  • you also might want to see how well the air speed sensor works at angles of attack near stall.... the static port should be fine but the pitot port might see larger pressure changes. depending on your plane, you can also take a pretty good wag at calculating stall speed based on wing loading and your wing's max Cl. 

    how accurately do you want to know it?

    this is also a handy reference for understanding stall performance: http://www.aviation.org.uk/docs/flighttest.navair.navy.milunrestric...

    • It shouldn't matter if there is some airspeed error because it will be consistent. You just need to know what speed to enter into the parameters, right?
  • That plan should work good. Just avoid pulling back too fast, you shouldn't gain any altitude. You don't want an accelerated stall. You should do several in a flight to make sure you got a good sample. Be sure to calibrate your ASS first.
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