mirror of https://github.com/ArduPilot/ardupilot
315 lines
12 KiB
C++
315 lines
12 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 helicopters
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*/
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#pragma once
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#include "AC_AutoTune_config.h"
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#if AC_AUTOTUNE_ENABLED
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#include "AC_AutoTune.h"
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#include <AP_Math/chirp.h>
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#include <GCS_MAVLink/GCS.h>
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#include <AP_Scheduler/AP_Scheduler.h>
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class AC_AutoTune_Heli : public AC_AutoTune
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{
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public:
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// constructor
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AC_AutoTune_Heli();
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// save gained, called on disarm
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void save_tuning_gains() override;
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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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//
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// methods to load and save gains
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//
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// backup original gains and prepare for start of tuning
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void backup_gains_and_initialise() override;
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// load gains
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void load_gain_set(AxisType s_axis, float rate_p, float rate_i, float rate_d, float rate_ff, float angle_p, float max_accel, float rate_fltt, float rate_flte, float smax, float max_rate);
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// switch to use original gains
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void load_orig_gains() override;
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// switch to gains found by last successful autotune
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void load_tuned_gains() override;
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// load gains used between tests. called during testing mode's update-gains step to set gains ahead of return-to-level step
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void load_intra_test_gains() override;
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// load test gains
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void load_test_gains() override;
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// reset the test variables for heli
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void reset_vehicle_test_variables() override;
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// reset the update gain variables for heli
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void reset_update_gain_variables() override;
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// initializes test
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void test_init() override;
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// runs test
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void test_run(AxisType test_axis, const float dir_sign) override;
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// update gains for the rate p up tune type
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void updating_rate_p_up_all(AxisType test_axis) override;
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// update gains for the rate d up tune type
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void updating_rate_d_up_all(AxisType test_axis) override;
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// update gains for the rate d down tune type
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void updating_rate_d_down_all(AxisType test_axis) override {};
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// update gains for the rate ff up tune type
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void updating_rate_ff_up_all(AxisType test_axis) override;
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// update gains for the angle p up tune type
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void updating_angle_p_up_all(AxisType test_axis) override;
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// update gains for the angle p down tune type
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void updating_angle_p_down_all(AxisType test_axis) override {};
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// update gains for the max gain tune type
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void updating_max_gains_all(AxisType test_axis) override;
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// set gains post tune for the tune type
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void set_gains_post_tune(AxisType test_axis) override;
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// reverse direction for twitch test
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bool twitch_reverse_direction() override { return positive_direction; }
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#if HAL_LOGGING_ENABLED
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// methods to log autotune summary data
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void Log_AutoTune() override;
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void Log_Write_AutoTune(AxisType _axis, uint8_t tune_step, float dwell_freq, float meas_gain, float meas_phase, float new_gain_rff, float new_gain_rp, float new_gain_rd, float new_gain_sp, float max_accel);
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// methods to log autotune time history results for command, angular rate, and attitude.
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void Log_AutoTuneDetails() override;
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void Log_Write_AutoTuneDetails(float motor_cmd, float tgt_rate_rads, float rate_rads, float tgt_ang_rad, float ang_rad);
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// methods to log autotune frequency response results
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void Log_AutoTuneSweep() override;
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void Log_Write_AutoTuneSweep(float freq_mtr, float gain_mtr, float phase_mtr, float freq_tgt, float gain_tgt, float phase_tgt);
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#endif
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// send intermittent updates to user on status of tune
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void do_gcs_announcements() override;
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// send post test updates to user
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void do_post_test_gcs_announcements() override;
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// report final gains for a given axis to GCS
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void report_final_gains(AxisType test_axis) const override;
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// set the tuning test sequence
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void set_tune_sequence() override;
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// get_axis_bitmask accessor
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uint8_t get_axis_bitmask() const override { return axis_bitmask; }
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// get_testing_step_timeout_ms accessor
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uint32_t get_testing_step_timeout_ms() const override;
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private:
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// sweep_info contains information about a specific test's sweep results
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struct sweep_info {
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float freq;
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float gain;
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float phase;
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};
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// max_gain_data type stores information from the max gain test
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struct max_gain_data {
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float freq;
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float phase;
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float gain;
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float max_allowed;
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};
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// FreqRespCalcType is the type of calculation done for the frequency response
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enum FreqRespCalcType {
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RATE = 0,
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ANGLE = 1,
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DRB = 2,
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};
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enum FreqRespInput {
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MOTOR = 0,
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TARGET = 1,
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};
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float target_angle_max_rp_cd() const override;
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float target_angle_max_y_cd() const override;
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float target_angle_min_rp_cd() const override;
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float target_angle_min_y_cd() const override;
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float angle_lim_max_rp_cd() const override;
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float angle_lim_neg_rpy_cd() const override;
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// initialize dwell test or angle dwell test variables
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void dwell_test_init(float start_frq, float stop_frq, float amplitude, float filt_freq, FreqRespInput freq_resp_input, FreqRespCalcType calc_type, AC_AutoTune_FreqResp::ResponseType resp_type, AC_AutoTune_FreqResp::InputType waveform_input_type);
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// dwell test used to perform frequency dwells for rate gains
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void dwell_test_run(sweep_info &test_data);
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// updating_rate_ff_up - adjust FF to ensure the target is reached
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// FF is adjusted until rate requested is achieved
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void updating_rate_ff_up(float &tune_ff, sweep_info &test_data, float &next_freq);
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// updating_rate_p_up - uses maximum allowable gain determined from max_gain test to determine rate p gain that does not exceed exceed max response gain
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void updating_rate_p_up(float &tune_p, sweep_info &test_data, float &next_freq, max_gain_data &max_gain_p);
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// updating_rate_d_up - uses maximum allowable gain determined from max_gain test to determine rate d gain where the response gain is at a minimum
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void updating_rate_d_up(float &tune_d, sweep_info &test_data, float &next_freq, max_gain_data &max_gain_d);
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// updating_angle_p_up - determines maximum angle p gain for pitch and roll
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void updating_angle_p_up(float &tune_p, sweep_info &test_data, float &next_freq);
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// updating_max_gains: use dwells at increasing frequency to determine gain at which instability will occur
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void updating_max_gains(sweep_info &test_data, float &next_freq, max_gain_data &max_gain_p, max_gain_data &max_gain_d, float &tune_p, float &tune_d);
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// freq_search_for_phase: general search strategy for specified phase. interpolation done once specified phase has been bounded.
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bool freq_search_for_phase(sweep_info test, float desired_phase, float freq_incr, sweep_info &est_data, float &new_freq);
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// reset the max_gains update gain variables
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void reset_maxgains_update_gain_variables();
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// reset the sweep variables
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void reset_sweep_variables();
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// exceeded_freq_range - ensures tuning remains inside frequency range
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bool exceeded_freq_range(float frequency);
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// report gain formatting helper
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void report_axis_gains(const char* axis_string, float rate_P, float rate_I, float rate_D, float rate_ff, float angle_P, float max_accel) const;
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// define input type as Dwell or Sweep. Used through entire class
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AC_AutoTune_FreqResp::InputType input_type;
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sweep_info curr_data; // frequency response test results
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float next_test_freq; // next test frequency for next test cycle setup
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// max gain data for rate p tuning
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max_gain_data max_rate_p;
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// max gain data for rate d tuning
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max_gain_data max_rate_d;
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// updating max gain variables
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// flag for finding maximum p gain
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bool found_max_p;
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// flag for finding maximum d gain
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bool found_max_d;
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// updating angle P up variables
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float phase_max; // track the maximum phase and freq
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float freq_max;
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float sp_prev_gain; // previous gain
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bool found_max_gain_freq; // flag for finding max gain frequency
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bool found_peak; // flag for finding the peak of the gain response
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// updating rate D up
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float rd_prev_gain; // previous gain
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// freq search for phase
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sweep_info prev_test; // data from previous dwell
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// Dwell Test variables
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AC_AutoTune_FreqResp::InputType test_input_type;
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FreqRespCalcType test_calc_type;
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FreqRespInput test_freq_resp_input;
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uint8_t num_dwell_cycles;
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float test_start_freq;
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float tgt_attitude;
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float pre_calc_cycles; // number of cycles to complete before running frequency response calculations
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float command_out; // test axis command output
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float filt_target_rate; // filtered target rate
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float dwell_start_time_ms; // start time in ms of dwell test
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sweep_info curr_test;
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sweep_info curr_test_mtr;
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sweep_info curr_test_tgt;
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Vector3f start_angles; // aircraft attitude at the start of test
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uint32_t settle_time; // time in ms for allowing aircraft to stabilize before initiating test
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float trim_meas_rate; // trim measured gyro rate
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// variables from dwell test
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LowPassFilterVector2f filt_att_fdbk_from_velxy_cd;
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LowPassFilterFloat filt_command_reading; // filtered command reading to keep oscillation centered
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LowPassFilterFloat filt_gyro_reading; // filtered gyro reading to keep oscillation centered
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LowPassFilterFloat filt_tgt_rate_reading; // filtered target rate reading to keep oscillation centered
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// trim variables for determining trim state prior to test starting
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float trim_yaw_tgt_reading_cd; // trim target yaw reading before starting test
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float trim_yaw_heading_reading_cd; // trim heading reading before starting test
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LowPassFilterFloat command_filt; // filtered command - filtering intended to remove noise
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LowPassFilterFloat target_rate_filt; // filtered target rate in radians/second - filtering intended to remove noise
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// sweep_data tracks the overall characteristics in the response to the frequency sweep
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struct sweep_data {
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sweep_info maxgain;
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sweep_info ph180;
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sweep_info ph270;
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uint8_t progress; // set based on phase of frequency response. 0 - start; 1 - reached 180 deg; 2 - reached 270 deg;
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};
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sweep_data sweep_mtr;
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sweep_data sweep_tgt;
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bool sweep_complete;
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// fix the frequency sweep time to 23 seconds
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const float sweep_time_ms = 23000;
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// parameters
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AP_Int8 axis_bitmask; // axes to be tuned
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AP_Int8 seq_bitmask; // tuning sequence bitmask
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AP_Float min_sweep_freq; // minimum sweep frequency
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AP_Float max_sweep_freq; // maximum sweep frequency
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AP_Float max_resp_gain; // maximum response gain
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AP_Float vel_hold_gain; // gain for velocity hold
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AP_Float accel_max; // maximum autotune angular acceleration
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AP_Float rate_max; // maximum autotune angular rate
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// freqresp object for the frequency response tests
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AC_AutoTune_FreqResp freqresp_mtr; // frequency response of output to motor mixer input
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AC_AutoTune_FreqResp freqresp_tgt; // frequency response of output to target input
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// allow tracking of cycles complete for frequency response object
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bool cycle_complete_tgt;
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bool cycle_complete_mtr;
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Chirp chirp_input;
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};
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#endif // AC_AUTOTUNE_ENABLED
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