mirror of https://github.com/ArduPilot/ardupilot
229 lines
11 KiB
C++
229 lines
11 KiB
C++
/*
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This program is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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/*
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support for autotune of multirotors. Based on original autotune code from ArduCopter, written by Leonard Hall
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Converted to a library by Andrew Tridgell
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*/
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#pragma once
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#include <AP_HAL/AP_HAL.h>
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#include <AC_AttitudeControl/AC_AttitudeControl_Multi.h>
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#include <AC_AttitudeControl/AC_PosControl.h>
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class AC_AutoTune {
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public:
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// constructor
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AC_AutoTune();
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// main run loop
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virtual void run();
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// save gained, called on disarm
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void save_tuning_gains();
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// stop tune, reverting gains
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void stop();
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// reset Autotune so that gains are not saved again and autotune can be run again.
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void reset() {
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mode = UNINITIALISED;
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axes_completed = 0;
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}
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// var_info for holding Parameter information
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static const struct AP_Param::GroupInfo var_info[];
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protected:
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// methods that must be supplied by the vehicle specific subclass
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virtual bool init(void) = 0;
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// get pilot input for desired cimb rate
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virtual float get_pilot_desired_climb_rate_cms(void) const = 0;
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// get pilot input for designed roll and pitch, and yaw rate
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virtual void get_pilot_desired_rp_yrate_cd(float &roll_cd, float &pitch_cd, float &yaw_rate_cds) = 0;
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// init pos controller Z velocity and accel limits
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virtual void init_z_limits() = 0;
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// log PIDs at full rate for during twitch
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virtual void log_pids() = 0;
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// return true if we have a good position estimate
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virtual bool position_ok();
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// internal init function, should be called from init()
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bool init_internals(bool use_poshold,
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AC_AttitudeControl_Multi *attitude_control,
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AC_PosControl *pos_control,
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AP_AHRS_View *ahrs_view,
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AP_InertialNav *inertial_nav);
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// initialise position controller
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bool init_position_controller();
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private:
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void control_attitude();
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void backup_gains_and_initialise();
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void load_orig_gains();
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void load_tuned_gains();
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void load_intra_test_gains();
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void load_twitch_gains();
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void update_gcs(uint8_t message_id) const;
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bool roll_enabled();
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bool pitch_enabled();
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bool yaw_enabled();
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void twitching_test_rate(float rate, float rate_target, float &meas_rate_min, float &meas_rate_max);
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void twitching_abort_rate(float angle, float rate, float angle_max, float meas_rate_min);
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void twitching_test_angle(float angle, float rate, float angle_target, float &meas_angle_min, float &meas_angle_max, float &meas_rate_min, float &meas_rate_max);
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void twitching_measure_acceleration(float &rate_of_change, float rate_measurement, float &rate_measurement_max) const;
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void updating_rate_d_up(float &tune_d, float tune_d_min, float tune_d_max, float tune_d_step_ratio, float &tune_p, float tune_p_min, float tune_p_max, float tune_p_step_ratio, float rate_target, float meas_rate_min, float meas_rate_max);
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void updating_rate_d_down(float &tune_d, float tune_d_min, float tune_d_step_ratio, float &tune_p, float tune_p_min, float tune_p_max, float tune_p_step_ratio, float rate_target, float meas_rate_min, float meas_rate_max);
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void updating_rate_p_up_d_down(float &tune_d, float tune_d_min, float tune_d_step_ratio, float &tune_p, float tune_p_min, float tune_p_max, float tune_p_step_ratio, float rate_target, float meas_rate_min, float meas_rate_max);
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void updating_angle_p_down(float &tune_p, float tune_p_min, float tune_p_step_ratio, float angle_target, float meas_angle_max, float meas_rate_min, float meas_rate_max);
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void updating_angle_p_up(float &tune_p, float tune_p_max, float tune_p_step_ratio, float angle_target, float meas_angle_max, float meas_rate_min, float meas_rate_max);
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void get_poshold_attitude(float &roll_cd, float &pitch_cd, float &yaw_cd);
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void Log_Write_AutoTune(uint8_t axis, uint8_t tune_step, float meas_target, float meas_min, float meas_max, float new_gain_rp, float new_gain_rd, float new_gain_sp, float new_ddt);
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void Log_Write_AutoTuneDetails(float angle_cd, float rate_cds);
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void send_step_string();
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const char *level_issue_string() const;
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const char * type_string() const;
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void announce_state_to_gcs();
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void do_gcs_announcements();
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enum struct LevelIssue {
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NONE,
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ANGLE_ROLL,
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ANGLE_PITCH,
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ANGLE_YAW,
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RATE_ROLL,
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RATE_PITCH,
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RATE_YAW,
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};
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bool check_level(const enum LevelIssue issue, const float current, const float maximum);
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bool currently_level();
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// autotune modes (high level states)
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enum TuneMode {
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UNINITIALISED = 0, // autotune has never been run
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TUNING = 1, // autotune is testing gains
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SUCCESS = 2, // tuning has completed, user is flight testing the new gains
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FAILED = 3, // tuning has failed, user is flying on original gains
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};
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// steps performed while in the tuning mode
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enum StepType {
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WAITING_FOR_LEVEL = 0, // autotune is waiting for vehicle to return to level before beginning the next twitch
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TWITCHING = 1, // autotune has begun a twitch and is watching the resulting vehicle movement
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UPDATE_GAINS = 2 // autotune has completed a twitch and is updating the gains based on the results
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};
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// things that can be tuned
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enum AxisType {
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ROLL = 0, // roll axis is being tuned (either angle or rate)
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PITCH = 1, // pitch axis is being tuned (either angle or rate)
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YAW = 2, // pitch axis is being tuned (either angle or rate)
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};
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// mini steps performed while in Tuning mode, Testing step
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enum TuneType {
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RD_UP = 0, // rate D is being tuned up
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RD_DOWN = 1, // rate D is being tuned down
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RP_UP = 2, // rate P is being tuned up
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SP_DOWN = 3, // angle P is being tuned down
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SP_UP = 4 // angle P is being tuned up
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};
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// type of gains to load
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enum GainType {
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GAIN_ORIGINAL = 0,
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GAIN_TWITCH = 1,
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GAIN_INTRA_TEST = 2,
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GAIN_TUNED = 3,
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};
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void load_gains(enum GainType gain_type);
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TuneMode mode; // see TuneMode for what modes are allowed
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bool pilot_override; // true = pilot is overriding controls so we suspend tuning temporarily
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AxisType axis; // see AxisType for which things can be tuned
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bool positive_direction; // false = tuning in negative direction (i.e. left for roll), true = positive direction (i.e. right for roll)
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StepType step; // see StepType for what steps are performed
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TuneType tune_type; // see TuneType
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bool ignore_next; // true = ignore the next test
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bool twitch_first_iter; // true on first iteration of a twitch (used to signal we must step the attitude or rate target)
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bool use_poshold; // true = enable position hold
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bool have_position; // true = start_position is value
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Vector3f start_position;
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uint8_t axes_completed; // bitmask of completed axes
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// variables
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uint32_t override_time; // the last time the pilot overrode the controls
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float test_rate_min; // the minimum angular rate achieved during TESTING_RATE step
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float test_rate_max; // the maximum angular rate achieved during TESTING_RATE step
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float test_angle_min; // the minimum angle achieved during TESTING_ANGLE step
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float test_angle_max; // the maximum angle achieved during TESTING_ANGLE step
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uint32_t step_start_time_ms; // start time of current tuning step (used for timeout checks)
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uint32_t level_start_time_ms; // start time of waiting for level
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uint32_t level_fail_warning_time_ms; // last time level failure warning message was sent to GCS
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uint32_t step_time_limit_ms; // time limit of current autotune process
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int8_t counter; // counter for tuning gains
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float target_rate, start_rate; // target and start rate
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float target_angle, start_angle; // target and start angles
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float desired_yaw_cd; // yaw heading during tune
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float rate_max, test_accel_max; // maximum acceleration variables
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float step_scaler; // scaler to reduce maximum target step
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float abort_angle; // Angle that test is aborted
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LowPassFilterFloat rotation_rate_filt; // filtered rotation rate in radians/second
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// backup of currently being tuned parameter values
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float orig_roll_rp, orig_roll_ri, orig_roll_rd, orig_roll_rff, orig_roll_fltt, orig_roll_smax, orig_roll_sp, orig_roll_accel;
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float orig_pitch_rp, orig_pitch_ri, orig_pitch_rd, orig_pitch_rff, orig_pitch_fltt, orig_pitch_smax, orig_pitch_sp, orig_pitch_accel;
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float orig_yaw_rp, orig_yaw_ri, orig_yaw_rd, orig_yaw_rff, orig_yaw_fltt, orig_yaw_smax, orig_yaw_rLPF, orig_yaw_sp, orig_yaw_accel;
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bool orig_bf_feedforward;
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// currently being tuned parameter values
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float tune_roll_rp, tune_roll_rd, tune_roll_sp, tune_roll_accel;
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float tune_pitch_rp, tune_pitch_rd, tune_pitch_sp, tune_pitch_accel;
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float tune_yaw_rp, tune_yaw_rLPF, tune_yaw_sp, tune_yaw_accel;
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uint32_t announce_time;
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float lean_angle;
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float rotation_rate;
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float roll_cd, pitch_cd;
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uint32_t last_pilot_override_warning;
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struct {
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LevelIssue issue{LevelIssue::NONE};
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float maximum;
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float current;
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} level_problem;
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AP_Int8 axis_bitmask;
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AP_Float aggressiveness;
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AP_Float min_d;
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// copies of object pointers to make code a bit clearer
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AC_AttitudeControl_Multi *attitude_control;
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AC_PosControl *pos_control;
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AP_AHRS_View *ahrs_view;
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AP_InertialNav *inertial_nav;
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AP_Motors *motors;
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};
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