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#!nsh
#
# Flight startup script for PX4FMU on PX4IOAR carrier board.
#
echo "[init] doing PX4IOAR startup..."
#
# Start the ORB
#
uorb start
#
# Load microSD params
#
echo "[init] loading microSD params"
param select /fs/microsd/params
if [ -f /fs/microsd/params ]
then
param load /fs/microsd/params
fi
#
# Force some key parameters to sane values
# MAV_TYPE 1 = fixed wing, 2 = quadrotor, 13 = hexarotor
# see https://pixhawk.ethz.ch/mavlink/
#
param set MAV_TYPE 2
#
# Configure PX4FMU for operation with PX4IOAR
#
fmu mode_gpio_serial
#
# Start the sensors.
#
sh /etc/init.d/rc.sensors
#
# Start MAVLink and MAVLink Onboard (Flow Sensor)
#
mavlink start -d /dev/ttyS0 -b 57600
mavlink_onboard start -d /dev/ttyS3 -b 115200
usleep 5000
#
# Start the commander.
#
commander start
#
# Start the attitude estimator
#
attitude_estimator_ekf start
#
# Start the position estimator
#
flow_position_estimator start
#
# Fire up the multi rotor attitude controller
#
multirotor_att_control start
#
# Fire up the flow position controller
#
flow_position_control start
#
# Fire up the flow speed controller
#
flow_speed_control start
#
# Fire up the AR.Drone interface.
#
ardrone_interface start -d /dev/ttyS1
#
# Start logging once armed
#
sdlog2 start -r 50 -a -b 14
#
# startup is done; we don't want the shell because we
# use the same UART for telemetry
#
echo "[init] startup done"
# Try to get an USB console
nshterm /dev/ttyACM0 &
# Exit, because /dev/ttyS0 is needed for MAVLink
exit
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