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# pragma once
/// @file AC_AttitudeControl_Sub.h
/// @brief ArduSub attitude control library
# include "AC_AttitudeControl.h"
# include <AP_Motors/AP_MotorsMulticopter.h>
// default angle controller PID gains
// (Sub-specific defaults for parent class)
# define AC_ATC_SUB_ANGLE_P 6.0f
# define AC_ATC_SUB_ACCEL_Y_MAX 110000.0f
// default rate controller PID gains
# define AC_ATC_SUB_RATE_RP_P 0.135f
# define AC_ATC_SUB_RATE_RP_I 0.090f
# define AC_ATC_SUB_RATE_RP_D 0.0036f
# define AC_ATC_SUB_RATE_RP_IMAX 0.444f
# define AC_ATC_SUB_RATE_RP_FILT_HZ 30.0f
# define AC_ATC_SUB_RATE_YAW_P 0.180f
# define AC_ATC_SUB_RATE_YAW_I 0.018f
# define AC_ATC_SUB_RATE_YAW_D 0.0f
# define AC_ATC_SUB_RATE_YAW_IMAX 0.222f
# define AC_ATC_SUB_RATE_YAW_FILT_HZ 5.0f
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# define MAX_YAW_ERROR radians(5)
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class AC_AttitudeControl_Sub : public AC_AttitudeControl {
public :
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AC_AttitudeControl_Sub ( AP_AHRS_View & ahrs , const AP_MultiCopter & aparm , AP_MotorsMulticopter & motors ) ;
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// empty destructor to suppress compiler warning
virtual ~ AC_AttitudeControl_Sub ( ) { }
// pid accessors
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AC_PID & get_rate_roll_pid ( ) override { return _pid_rate_roll ; }
AC_PID & get_rate_pitch_pid ( ) override { return _pid_rate_pitch ; }
AC_PID & get_rate_yaw_pid ( ) override { return _pid_rate_yaw ; }
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const AC_PID & get_rate_roll_pid ( ) const override { return _pid_rate_roll ; }
const AC_PID & get_rate_pitch_pid ( ) const override { return _pid_rate_pitch ; }
const AC_PID & get_rate_yaw_pid ( ) const override { return _pid_rate_yaw ; }
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// Update Alt_Hold angle maximum
void update_althold_lean_angle_max ( float throttle_in ) override ;
// Set output throttle
void set_throttle_out ( float throttle_in , bool apply_angle_boost , float filt_cutoff ) override ;
// calculate total body frame throttle required to produce the given earth frame throttle
float get_throttle_boosted ( float throttle_in ) ;
// set desired throttle vs attitude mixing (actual mix is slewed towards this value over 1~2 seconds)
// low values favour pilot/autopilot throttle over attitude control, high values favour attitude control over throttle
// has no effect when throttle is above hover throttle
void set_throttle_mix_min ( ) override { _throttle_rpy_mix_desired = _thr_mix_min ; }
void set_throttle_mix_man ( ) override { _throttle_rpy_mix_desired = _thr_mix_man ; }
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void set_throttle_mix_max ( float ratio ) override { _throttle_rpy_mix_desired = _thr_mix_max ; }
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// are we producing min throttle?
bool is_throttle_mix_min ( ) const override { return ( _throttle_rpy_mix < 1.25f * _thr_mix_min ) ; }
// run lowest level body-frame rate controller and send outputs to the motors
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void rate_controller_run ( ) override ;
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// sanity check parameters. should be called once before take-off
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void parameter_sanity_check ( ) override ;
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// set the PID notch sample rates
void set_notch_sample_rate ( float sample_rate ) override ;
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// This function ensures that the ROV reaches the target orientation with the desired yaw rate
void input_euler_angle_roll_pitch_slew_yaw ( float euler_roll_angle_cd , float euler_pitch_angle_cd , float euler_yaw_angle_cd , float slew_yaw ) ;
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// user settable parameters
static const struct AP_Param : : GroupInfo var_info [ ] ;
protected :
// update_throttle_rpy_mix - updates thr_low_comp value towards the target
void update_throttle_rpy_mix ( ) ;
// get maximum value throttle can be raised to based on throttle vs attitude prioritisation
float get_throttle_avg_max ( float throttle_in ) ;
AP_MotorsMulticopter & _motors_multi ;
AC_PID _pid_rate_roll ;
AC_PID _pid_rate_pitch ;
AC_PID _pid_rate_yaw ;
AP_Float _thr_mix_man ; // throttle vs attitude control prioritisation used when using manual throttle (higher values mean we prioritise attitude control over throttle)
AP_Float _thr_mix_min ; // throttle vs attitude control prioritisation used when landing (higher values mean we prioritise attitude control over throttle)
AP_Float _thr_mix_max ; // throttle vs attitude control prioritisation used during active flight (higher values mean we prioritise attitude control over throttle)
} ;