px4-firmware/ROMFS/px4fmu_common/init.d/1000_rc_fw.hil

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#!nsh
#
# USB HIL start
#
echo "[HIL] HILStar starting.."
#
# Load default params for this platform
#
if param compare SYS_AUTOCONFIG 1
then
# Set all params here, then disable autoconfig
param set FW_P_D 0
param set FW_P_I 0
param set FW_P_IMAX 15
param set FW_P_LIM_MAX 50
param set FW_P_LIM_MIN -50
param set FW_P_P 60
param set FW_P_RMAX_NEG 0
param set FW_P_RMAX_POS 0
param set FW_P_ROLLFF 1.1
param set FW_R_D 0
param set FW_R_I 5
param set FW_R_IMAX 20
param set FW_R_P 100
param set FW_R_RMAX 100
param set FW_THR_CRUISE 0.65
param set FW_THR_MAX 1
param set FW_THR_MIN 0
param set FW_T_SINK_MAX 5.0
param set FW_T_SINK_MIN 4.0
param set FW_Y_ROLLFF 1.1
param set FW_L1_PERIOD 16
param set SYS_AUTOCONFIG 0
param save
fi
# Allow USB some time to come up
sleep 1
# Tell MAVLink that this link is "fast"
mavlink start -b 230400 -d /dev/ttyACM0
# Create a fake HIL /dev/pwm_output interface
hil mode_pwm
#
# 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 1
#
# Start the commander (depends on orb, mavlink)
#
commander start
#
# Check if we got an IO
#
if px4io start
then
echo "IO started"
else
fmu mode_serial
echo "FMU started"
fi
#
# Start the sensors (depends on orb, px4io)
#
sh /etc/init.d/rc.sensors
#
# Start the attitude estimator (depends on orb)
#
att_pos_estimator_ekf start
#
# Load mixer and start controllers (depends on px4io)
#
mixer load /dev/pwm_output /etc/mixers/FMU_AET.mix
fw_pos_control_l1 start
fw_att_control start
echo "[HIL] setup done, running"