IMU
Inhaltsverzeichnis
Abstract
An IMU (Intertia Measurement Unit) is a key component of an inertia navigation system. We use it to:
- detect if the robot is in tilt orientation
- keep the robot on track for the 'lane-by-lane' mowing pattern
Acceleration sensor
An acceleration sensor measures earth gravity force (m*s^2) in all 3 robot axes (x/y/z) allowing you to calculate the orientation towards earth center of the robot (Roll, Pitch). However, it cannot detect movement around Yaw - this requires a gyro.
Gyro
A gyro measures rotational speed (degree/second) in all 3 robot axes (Roll, Pitch, Yaw). This allows us to correct the robot if it is driving 'off-course' due to wet conditions or slope. When integrating (adding) gyro values over time, the actual course (yaw) can be calculated. However, because each sensor reading has a small error, the course will 'drift' over time. This needs to be corrected via an absolute heading sensor (compass).
Typical gyro measurement errors:
noise dps/sqrt(Hz) L3G4200D 0.03 BMG160/BNO055 0.014 MPU9250 0.01 L3GD20H 0.011 LSM9DS0 0.00875 BMI160 0.007 MAX21003 0.007 L2G2IS/L2G3IS 0.006 MPU9150/MPU6050 0.005 ADXRS290 0.004 GYPRO2300 0.00277
Compass
If a robot drives on a wet lawn, you'll notice quickly that it will not drive straight forward, but instead tends to drive into the direction of the slope. Reading a compass heading can solve this problem and the robot will drive straight forward again .
However, a compass has two problems:
- If tilting the robot, the compass measurements (x,y,z) relate to the tilted robot. So, you need to correct them using knowing the tilt angles. This requires the use of the accerlation sensor (x,y).
- The compass measurements are influenced by motors. So you may need to switch of the motor to get an accurate measurement.
Sensor fusion
To eliminate the issues of all sensor, they are merged to compute the course (degree) and pitch/roll angles.
We use a complementary filter to fusion all sensor values.
IMU module
GY-80
- Acceleration sensor: ADXL345B
- Compass sensor: HMC5883L
- Gyro: L3G4200D
- Pressure sensor: BMP085 (not used here)
Assembly
This photo shows how the IMU module is placed in the driving position (the red arrow shows the driving position). Ensure a minimum distance of 30cm from all motors. This minimum distance seems to be needed to ensure the compass is not disturbed by dynamically disturbing sources (like motors).
Calibration abstract
This one-time calibration ensures that:
- All 3 axes measurements of the acceleration sensor are weighted equally. This calibration can even be performed externally to the robot.
- Cables, metal, etc. which are located in the robot near the IMU module have no effect on the compass data.
Why is it needed? The origin of a 3D compass point is 0,0,0 (x,y,z) and points to the north pole. If the 3D compass is rotated around all of its axes i.e. all values of x, y and z are measured then these points will lie on a sphere.
If you add a magnetic material (e.g. metal) near the compass, the measured values from the origin (0,0,0) of the sensor suddenly point in one direction only - Why? There are two types of disturbances of the magnetic field which change / move the values:
- Hard ircon (e.g. magnets): the sphere moves
- Soft ircon (e.g. metal): the sphere deforms (becomes an Ellipsoid)
Example measurements
The goal of the calibration is that the measurements are centered again on a sphere around the origin of the sensor.
Calibration steps
Acceleration sensor
This calibration can be performed outside of the robot. Place each of the 6 module sides exactly upright, do not move and choose 'next side calibration':
- Via serial console "IMU acc calibration next side" OR
- Via pfodApp "Settings->IMU->acc calibration next side"
Do not move the module during the measurement of each side! During measurement you will hear a short beep tone.
Repeat this step for all 6 sides. After all 6 sides are calibrated, you will hear a short melody.
Compass sensor
This calibration can only be performed inside of the robot (in its final position). Start the compass calibration:
- Via serial console "IMU com calibration start/stop" OR
- Via pfodApp "Settings->IMU->com calibration start/stop"
Hold each of the 6 module sides to North direction and tilt the module until minimum and maximum of the axis does not change anymore (until no tone is outputted anymore):
Calibration quality test
For a quality test, you can plot the calibration results (Yaw, Pitch, Roll) via pfodApp. Place the robot on a flat ground and let it rotate (pfodApp: click on "Commands->Auto rotate" until robot rotates). Alternatively, you can let the robot drive a circle (pfodApp: click "Manual->Right" until it drives the desired radius). Finally, choose 'Plot->IMU' to see the calibration result.
For the yaw plot, the curve should be a straight line when the robot is rotating with a constant speed.
Videos