Difference between revisions of "ImuCalibration/Gyroscopes"

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== Encoder Code Modifications ==
== Encoder Code Modifications ==
Line 43 in ~/sw/airborne/firmwares/motor_bench/main_turntable.c has to be amended to reflect the encoder's factory pulses per revolution (P/R) setting from default "#define NB_STEP 256". The encoder above has a factory resolution set at "300" (P/R). The resolution setting has to relect turntable velocity message outputs of ~200deg/s (3.49065rad/s) and ~270deg/s (4.71239rad/s) for 33rpm and 45 rpm respectively.   
Line 43 in ~/sw/airborne/firmwares/motor_bench/main_turntable.c has to be amended to reflect the encoder's factory pulses per revolution (P/R) setting from default "#define NB_STEP 256". The encoder above has a factory resolution set at "300" (P/R). The resolution setting has to reflect turntable velocity message outputs of ~200deg/s (3.49065rad/s) and ~270deg/s (4.71239rad/s) for 33rpm and 45rpm respectively.   
{{Box Code|sw/airborne/firmwares/motor_bench/main_turntable.c|
{{Box Code|sw/airborne/firmwares/motor_bench/main_turntable.c|
<source lang="xml">
<source lang="xml">
Line 143: Line 143:
* Build A/C "TT" using "main" target and the USB A-B lead detached from PC.
* Build A/C "TT" using "main" target and the USB A-B lead detached from PC.
* Attach USB A-B lead to both LPC & PC and upload code.
* Attach USB A-B lead to both LPC & PC and upload code.
* Start "Flight with USB-serial_TT modem" "session".
* Start "Flight with USB-serial_TT modem" "Session".
* Open default "Message" box and "Real-time Plotter" from the "Tools" menu. Choose "IMU_TURNTABLE" readout.
* Open default "Message" box and "Real-time Plotter" from the "Tools" menu. Choose "IMU_TURNTABLE" readout.
* Switch to A/C "TTIMU" in same "Paparazzi Centre" window, build and upload code.
* Switch to A/C "TTIMU" in same "Paparazzi Centre" window. Build and upload code.
* Start "Flight USB-serial_TT @57600" "session".
* Start "Flight USB-serial_TT @57600" "Session".
* In original "GCS" window change "Telemetry" to "raw_sensors".
* In original "GCS" window change "Telemetry" to "raw_sensors".
* Open a new "Message" box and choose "IMU_GYRO_RAW" readout.
* Open a new "Message" box and choose "IMU_GYRO_RAW" readout.
Line 154: Line 154:
* Halt "Data Link" for both A/Cs "TT" and "TTIMU" and change turntable speed to 45rpm.  
* Halt "Data Link" for both A/Cs "TT" and "TTIMU" and change turntable speed to 45rpm.  
* Restart - click both "Data Link" boxes and record for a further four minutes.  
* Restart - click both "Data Link" boxes and record for a further four minutes.  
* Stop "Server"
* Stop "Server".
[[Image:Imu_gyro_calib_ppzcentre.png|240px|left|IMU gyro calibration, Paparazzi Centre]]
[[Image:Imu_gyro_calib_ppzcentre.png|240px|IMU gyro calibration, Paparazzi Centre]]


== Data Analysis Setup ==
== Data Analysis ==
* The captured turntable velocity and gyro axis data can be found date and time stamped at:
{{Box Code|var/logs/xx_xx_xx__xx_xx_xx.data|
<source lang="xml">
  ~/var/logs/12_06_05__18_11_00.data
</source>
}}
* Right click the file and open with "LibreOfficeCalc". Click column D and elect "Sort Ascending".
* Choose "Extend selection" box. Note the time stamps of the IMU_TURNTABLE outlier data in column A. 
* Insert them in the search box of a separate open editor version of the log file and delete the offending prints.
* Save the file and run the following:
{{Box Code|~/paparazzi/sw/tools/calibration$|
<source lang="xml">
    ./calibrate_gyro.py --id 4 --tt_id 3 --axis r /home/stephen/paparazzi/var/logs/12_06_05__18_11_00.data
   
    Linear regression using stats.linregress
    regression: a=824.56 b=16.03, std error= 0.048
    <define name="GYRO_X_NEUTRAL" value="16"/>
    <define name="GYRO_X_SENS" value="4.967519" integer="16"/>
</source>
}}
 
* These accompanying plots are also generated:
[[Image:Gyro_calib_plots.png|240px|left|Gyro calibration Plots]]
 
[[Category:User_Documentation]]

Latest revision as of 10:20, 18 March 2013

Turntable Procedure

Hardware

Pictures

Components

  • audio-technica AT-LP120_USB Direct Drive Professional Turntable
  • Olimex LPC H2148
  • Omron rotary encoder
  • Lisa/L+IMU, Xbee 2.4Ghz modem set, fibreglass mounting plates and general wiring components
  • Encoder mount hoop - engineering shop?

Wiring

Encoder to LPC

  • Black (common) to EXT2 GND
  • Red 5~12 VDC to EXT2 Vin(5v)
  • White OUTA to EXT1 PO.22

LPC to LPC

  • EXT2 3.3v to EXT1 PO.22 (pull up resistor)

Software

LPC Code Modifications

In case of USB 2.0 A-B cable operation, ~/conf/airframes/Poine/turntable.xml has to be amended, as follows, and saved as ~/turntable_dev_usb.xml:

File: conf/airframes/Poine/turntable_dev_usb.xml
 main.CFLAGS += -DUSE_USB_SERIAL
 main.srcs += $(SRC_ARCH)/usb_ser_hw.c
 main.srcs += $(SRC_ARCH)/lpcusb/usbhw_lpc.c $(SRC_ARCH)/lpcusb/usbinit.c
 main.srcs += $(SRC_ARCH)/lpcusb/usbcontrol.c $(SRC_ARCH)/lpcusb/usbstdreq.c
 main.CFLAGS += -DDOWNLINK -DDOWNLINK_TRANSPORT=PprzTransport -DDOWNLINK_DEVICE=UsbS

 #main.CFLAGS += -DUSE_UART0 -DUART0_BAUD=B115200
 #main.srcs += mcu_periph/uart.c
 #main.srcs += $(SRC_ARCH)/mcu_periph/uart_arch.c
 #main.CFLAGS += -DDOWNLINK -DDOWNLINK_TRANSPORT=PprzTransport -DDOWNLINK_DEVICE=Uart0

 main.srcs += subsystems/datalink/downlink.c subsystems/datalink/pprz_transport.c

 #main.CFLAGS += -DMB_TACHO
 #main.srcs += $(MB)/mb_tacho.c

   </makefile>

 </airframe>


A new turntable session has to be added to ~/conf/control_panel.xml:

File: conf/control_panel.xml
   <session name="Flight with USB-serial_TT modem">
      <program name="Data Link">
        <arg flag="-d" constant="/dev/ttyACM0"/>
        <arg flag="-nouplink" constant=""/>          
        <arg flag="-s" constant="115200"/> 
      </program>
      <program name="Server"/>
      <program name="GCS"/>
    </session>


A new aircraft (A/C) named "TT" has to be built using the paparazzi centre:

File: conf/conf.xml
   <aircraft
   name="TT"
   ac_id="3"
   airframe="airframes/Poine/turntable_dev_usb.xml"
   radio="radios/cockpitSX.xml"
   telemetry="telemetry/default_rotorcraft.xml"
   flight_plan="flight_plans/dummy.xml"
   settings=" settings/rotorcraft_basic.xml"
   gui_color="blue"
  />
  <aircraft

IMU Code Modifications

Similar files have to be created for the IMU cradle unit:

File: conf/control_panel.xml
   <session name="Flight USB-serial_TT @57600">
      <program name="Data Link">
        <arg flag="-d" constant="/dev/ttyUSB0"/>
        <arg flag="-s" constant="57600"/>
      </program>
    </session>


The airframe is a standard rotorcraft file with the appropriate IMU defined.

File: conf/conf.xml
   <aircraft
   name="TTIMU"
   ac_id="4"
   airframe="airframes/Audax/slh_lisa_mkk_i2c_indoor_tt_asp1.0.xml"
   radio="radios/cockpitSX.xml"
   telemetry="telemetry/default_rotorcraft.xml"
   flight_plan="flight_plans/rotorcraft_basic.xml"
   settings=" settings/rotorcraft_basic.xml"
   gui_color="blue"
  />
  <aircraft

Encoder Code Modifications

Line 43 in ~/sw/airborne/firmwares/motor_bench/main_turntable.c has to be amended to reflect the encoder's factory pulses per revolution (P/R) setting from default "#define NB_STEP 256". The encoder above has a factory resolution set at "300" (P/R). The resolution setting has to reflect turntable velocity message outputs of ~200deg/s (3.49065rad/s) and ~270deg/s (4.71239rad/s) for 33rpm and 45rpm respectively.

File: sw/airborne/firmwares/motor_bench/main_turntable.c
 #define NB_STEP 300

Calibration Session

Data Collection Setup

In Paparazzi Centre:

  • Build A/C "TT" using "main" target and the USB A-B lead detached from PC.
  • Attach USB A-B lead to both LPC & PC and upload code.
  • Start "Flight with USB-serial_TT modem" "Session".
  • Open default "Message" box and "Real-time Plotter" from the "Tools" menu. Choose "IMU_TURNTABLE" readout.
  • Switch to A/C "TTIMU" in same "Paparazzi Centre" window. Build and upload code.
  • Start "Flight USB-serial_TT @57600" "Session".
  • In original "GCS" window change "Telemetry" to "raw_sensors".
  • Open a new "Message" box and choose "IMU_GYRO_RAW" readout.
  • Arrange placement of IMU cradle, for the chosen axis (p, q, r), on the side which reports the highest or positive reading.
  • Start turntable @ 33rpm and drag "IMU_TURNTABLE" data from "Message" box to "Real-time Plotter".
  • Restart "Server" 1 second before a full minute readout and record for four minutes.
  • Halt "Data Link" for both A/Cs "TT" and "TTIMU" and change turntable speed to 45rpm.
  • Restart - click both "Data Link" boxes and record for a further four minutes.
  • Stop "Server".

IMU gyro calibration, Paparazzi Centre

Data Analysis

  • The captured turntable velocity and gyro axis data can be found date and time stamped at:
File: var/logs/xx_xx_xx__xx_xx_xx.data
   ~/var/logs/12_06_05__18_11_00.data
  • Right click the file and open with "LibreOfficeCalc". Click column D and elect "Sort Ascending".
  • Choose "Extend selection" box. Note the time stamps of the IMU_TURNTABLE outlier data in column A.
  • Insert them in the search box of a separate open editor version of the log file and delete the offending prints.
  • Save the file and run the following:
File: ~/paparazzi/sw/tools/calibration$
    ./calibrate_gyro.py --id 4 --tt_id 3 --axis r /home/stephen/paparazzi/var/logs/12_06_05__18_11_00.data
     
     Linear regression using stats.linregress
     regression: a=824.56 b=16.03, std error= 0.048
     <define name="GYRO_X_NEUTRAL" value="16"/>
     <define name="GYRO_X_SENS" value="4.967519" integer="16"/>
  • These accompanying plots are also generated:
Gyro calibration Plots