The following pictures were taken between August 2003 and October 2003.

We had developed a flight controller board similar to the autopilot one. We had been able to re-use some of their code - for example radio control receiving or servos commanding. Thanks allot Trammel.

The plane now had potential to become fully autonomous (not controlled from ground anymore).

We made some test with the autopilot inertial sensor (3 gyros, 3 accels) and discovered that it was not that easy to go from "tilt.c" to something that would work in our plane.

Out of despair, we plugged the FMA sensor to our controller board ADCs, wrote some cheap proportional controllers and ... surprise, it worked very well.

We worked on calibration (how to estimate attitude angles from temperature differences), and Pascal came out with a Linear Least Square method that gave good results. We observe the turn radius given by GPS. Under the coordinated turn hypothesis, we can convert it to bank angle that will be compared with the one obtained from infrared. The Linear Least Square algorithm will minimize this error.

This system was awarded first price for autonomous flight at the Ensica/Supaero second European MAV trophy in front of 4 international teams.

We had a bad surprise during this competition. A radio control interference disengaged the autopilot during the flight. I was able to reengage it and the flight continued with no other problem. We now filter the radio control signal on mode toggling channels and didn't experience such phenomenon since. This is not satisfying. The only solution to be really sure would be to go PCM. Trouble is that radio control makers won't publish their signal specifications. The Futaba PCM was more or less reverse engineered and we are thinking about buying a transmitter from that brand.

The airframe was still a twinstar. It was loaded with several packs of batteries - was very heavy and had a small flight endurance.

We have mounted the autopilot in a maxi-kiool, an enlarged version of the minus-kiool. This plane was light and flew long and well. It had a brushless motor and lipos batteries. This high priced gear had been offered to us by the Pyrénées Modèles shop in Toulouse. Thank you Mr Garat. Saint IGNUcius will give it back to you :)

We stopped using it because it was very fragile. The 56g version had no trouble landing on its motor but the 800g one didn't like it that much. Another reason why we abandoned that plane is that Supaero regarded the design as his and intended to use it for competitions were we would be opposed. They made a high tech carbon/kevlar molded version which they measured in their wind tunnel. I'm not aware that this plane is regularly flying.

After the trophy, we were contacted by people wishing to use Paparazzi. We took conscience that our code was not configurable and would cause problem to port to another airframe.

We began to rewrite it to support an high level configuration language.


Photos V1.0

GPSGPSDev PCB
Ublox Sam gps receiver and rs232 level shifter.
Ublox Sam gps receiver and rs232 level shifter.
The same from the other side.
The same from the other side.
Development board
Development board
avionicavionicrc receiver
Top side of the controller.
Top side of the controller.
Bottom one
Bottom one
Futaba radio control receiver with ppm wire to the controller board.
Futaba radio control receiver with ppm wire to the controller board.
rc receiveravionicfuselage
The same from the other side.
The same from the other side.
The controller board and the radio control receiver.
The controller board and the radio control receiver.
The fuselage with controller board removed.
The fuselage with controller board removed.
fuselagetwinstartrajectory
The fuselage with the controller board and the GPS receiver.
The fuselage with the controller board and the GPS receiver.
Paparazzi on its tripod.
Paparazzi on its tripod.
A flight a couple of days before the trophy.
A flight a couple of days before the trophy.
trajectoryMaxi kioolMaxi kiool
The supaero trophy flight replay.
The supaero trophy flight replay.
The maxi kiool.
The maxi kiool.
Closer view of the beast.
Closer view of the beast.