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// -*- tab-width: 4; Mode: C++; c-basic-offset: 4; indent-tabs-mode: t -*-
/// @file AC_AttitudeControl_Heli.h
/// @brief ArduCopter attitude control library for traditional helicopters
# ifndef AC_ATTITUDECONTROL_HELI_H
# define AC_ATTITUDECONTROL_HELI_H
# include <AC_AttitudeControl.h>
# define AC_ATTITUDE_HELI_ROLL_FF 0.0f
# define AC_ATTITUDE_HELI_PITCH_FF 0.0f
# define AC_ATTITUDE_HELI_YAW_FF 0.0f
# define AC_ATTITUDE_HELI_RATE_INTEGRATOR_LEAK_RATE 0.02f
class AC_AttitudeControl_Heli : public AC_AttitudeControl {
public :
AC_AttitudeControl_Heli ( AP_AHRS & ahrs ,
AP_InertialSensor & ins ,
const AP_Vehicle : : MultiCopter & aparm ,
AP_MotorsHeli & motors ,
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AC_P & p_angle_roll , AC_P & p_angle_pitch , AC_P & p_angle_yaw ,
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AC_PID & pid_rate_roll , AC_PID & pid_rate_pitch , AC_PID & pid_rate_yaw
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) :
AC_AttitudeControl ( ahrs , ins , aparm , motors ,
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p_angle_roll , p_angle_pitch , p_angle_yaw ,
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pid_rate_roll , pid_rate_pitch , pid_rate_yaw )
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{
AP_Param : : setup_object_defaults ( this , var_info ) ;
}
// rate_controller_run - run lowest level body-frame rate controller and send outputs to the motors
// should be called at 100hz or more
virtual void rate_controller_run ( ) ;
// use_leaky_i - controls whether we use leaky i term for body-frame to motor output stage
void use_leaky_i ( bool leaky_i ) { _flags_heli . leaky_i = leaky_i ; }
// user settable parameters
static const struct AP_Param : : GroupInfo var_info [ ] ;
private :
// To-Do: move these limits flags into the heli motors class
struct AttControlHeliFlags {
uint8_t limit_roll : 1 ; // 1 if we have requested larger roll angle than swash can physically move
uint8_t limit_pitch : 1 ; // 1 if we have requested larger pitch angle than swash can physically move
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uint8_t limit_yaw : 1 ; // 1 if we have requested larger yaw angle than tail servo can physically move
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uint8_t leaky_i : 1 ; // 1 if we should use leaky i term for body-frame rate to motor stage
} _flags_heli ;
//
// body-frame rate controller
//
// rate_bf_to_motor_roll_pitch - ask the rate controller to calculate the motor outputs to achieve the target body-frame rate (in centi-degrees/sec) for roll, pitch and yaw
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// outputs are sent directly to motor class
void rate_bf_to_motor_roll_pitch ( float rate_roll_target_cds , float rate_pitch_target_cds ) ;
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virtual float rate_bf_to_motor_yaw ( float rate_yaw_cds ) ;
//
// throttle methods
//
// get_angle_boost - calculate total body frame throttle required to produce the given earth frame throttle
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virtual int16_t get_angle_boost ( int16_t throttle_pwm ) ;
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// parameters
AP_Float _heli_roll_ff ; // body-frame roll rate to motor output feed forward
AP_Float _heli_pitch_ff ; // body-frame pitch rate to motor output feed forward
AP_Float _heli_yaw_ff ; // body-frame yaw rate to motor output feed forward
} ;
# endif //AC_ATTITUDECONTROL_HELI_H