Regbot calibration: Difference between revisions

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* "pulses per rev" is encoder configuration - number of pulses for one motor revolution - normally 48.
* "pulses per rev" is encoder configuration - number of pulses for one motor revolution - normally 48.
* "wheel radius" is important for distance calculation, and a bit for velocity and turning.
* "wheel radius" is important for distance calculation, and a bit for velocity and turning.
* "COG  tilt offset" Center of Gravity tilt offset is important when keeping balance, should be adjusted, so that "tilt" (lower right) is 0, when in balance (hand held), if not, then add tilt value to "COG tilt offset".
* "COG  tilt offset" Center of Gravity tilt offset is important when keeping balance, should be adjusted, so that "tilt" (lower right) is 0, when in balance (hand held), if not, then add tilt value to "COG tilt offset". Accuracy should be about 0.01 radian (0.5 degree).


To change, press "edit", do the change and press "save" - and to be permanent after a reboot press "save to flash"
To change, press "edit", do the change and press "save" - and to be permanent after a reboot press "save to flash"

Revision as of 09:46, 26 March 2019

Calibration

In the REGBOt GUI, the "robot" pane has the basic configuration

Figure 1. Basic robot settings.

  • "Base WB [m]" is the distance between driving wheels. This is important for heading calculation and turning.
  • "gear N" is gear reduction - normally 9.68
  • "pulses per rev" is encoder configuration - number of pulses for one motor revolution - normally 48.
  • "wheel radius" is important for distance calculation, and a bit for velocity and turning.
  • "COG tilt offset" Center of Gravity tilt offset is important when keeping balance, should be adjusted, so that "tilt" (lower right) is 0, when in balance (hand held), if not, then add tilt value to "COG tilt offset". Accuracy should be about 0.01 radian (0.5 degree).

To change, press "edit", do the change and press "save" - and to be permanent after a reboot press "save to flash"

Gyro

The gyro is primarily used when in balance, but could be usefull for turning as well. The gyro has an offset, that can be calibrated away.

Figure 2. Gyro calibration. The lower left graph are the gyro values, when tha calibration values are implemented. The lower right graph is the accelerometer (raw) values - no calibration offered here. The top right graph is the tilt angle - a combination of gyro and acceleromerter values (complementary filter).

  • To calibrate, make sure the robot is steady (no movement, no touch) then click the "calibrate" on the "IMU" pane. This will average the values over 1s and use as an offset.
  • after this the 3 gyro values should have zero mean.

Encoder

Encoder calibration attempt to compensate for the uneven sized magnets in the magnetic encoder.

Figure 3. Calibration the encoder. The graph shows for all 48 encoder tics the time between the tics at constant velocity. Ideally it should be a straight line.

  • To calibrate tick both "Get raw data regulary" and "Run motor at 3V" (wheels away from floor).

This will show some rather uneven lines in the plot.

  • press the "Do calibration" button, once the velocity is stable.

This should make the calibrated lines more straight.

  • Tick also the "Use calibration" (to the right) to use the calibrated values. If this is ticked and the calibration is out of sync, then it probably is worse than no calibration.
  • NB! the calibration will only work as long as all encoder tics are counted, i.e. not after a reboot.


Edge

Edge (or line) detector for tape lines.

Figure 4. Calibration line sensor.

IR distance

The 2 distance sensors need calibration too.

Figure 5. Calibration of the IR sensor.