ardupilot/libraries/APM_Control/AP_AutoTune.h

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#pragma once
#include <AP_Logger/AP_Logger.h>
#include <AP_Logger/LogStructure.h>
#include <AP_Param/AP_Param.h>
#include <AP_Vehicle/AP_FixedWing.h>
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#include <Filter/SlewLimiter.h>
#include <Filter/ModeFilter.h>
class AP_AutoTune
{
public:
struct ATGains {
AP_Float tau;
AP_Int16 rmax_pos;
AP_Int16 rmax_neg;
float FF, P, I, D, IMAX;
float flt_T, flt_E, flt_D;
};
enum ATType {
AUTOTUNE_ROLL = 0,
AUTOTUNE_PITCH = 1,
AUTOTUNE_YAW = 2,
};
enum Options {
DISABLE_FLTD_UPDATE = 0,
DISABLE_FLTT_UPDATE = 1
};
struct PACKED log_ATRP {
LOG_PACKET_HEADER;
uint64_t time_us;
uint8_t type;
uint8_t state;
float actuator;
float P_slew;
float D_slew;
float FF_single;
float FF;
float P;
float I;
float D;
uint8_t action;
float rmax;
float tau;
};
// constructor
AP_AutoTune(ATGains &_gains, ATType type, const AP_FixedWing &parms, class AC_PID &rpid);
// called when autotune mode is entered
void start(void);
// called to stop autotune and restore gains when user leaves
// autotune
void stop(void);
// update called whenever autotune mode is active. This is
// called at the main loop rate
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void update(struct AP_PIDInfo &pid_info, float scaler, float angle_err_deg);
// are we running?
bool running;
private:
// the current gains
ATGains &current;
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class AC_PID &rpid;
// what type of autotune is this
ATType type;
const AP_FixedWing &aparm;
// values to restore if we leave autotune mode
ATGains restore;
ATGains last_save;
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// last logging time
uint32_t last_log_ms;
// the demanded/achieved state
enum class ATState {IDLE,
DEMAND_POS,
DEMAND_NEG
};
ATState state;
// the demanded/achieved state
enum class Action {NONE,
LOW_RATE,
SHORT,
RAISE_PD,
LOWER_PD,
IDLE_LOWER_PD,
RAISE_D,
RAISE_P,
LOWER_D,
LOWER_P
};
Action action;
// when we entered the current state
uint32_t state_enter_ms;
void check_state_exit(uint32_t state_time_ms);
void save_gains(void);
void save_float_if_changed(AP_Float &v, float value);
void save_int16_if_changed(AP_Int16 &v, int16_t value);
void state_change(ATState newstate);
const char *axis_string(void) const;
// get gains with PID components
ATGains get_gains(void);
void restore_gains(void);
// update rmax and tau towards target
void update_rmax();
bool has_option(Options option) {
return (aparm.autotune_options.get() & uint32_t(1<<uint32_t(option))) != 0;
}
// 5 point mode filter for FF estimate
ModeFilterFloat_Size5 ff_filter;
LowPassFilterFloat actuator_filter;
LowPassFilterFloat rate_filter;
LowPassFilterFloat target_filter;
// separate slew limiters for P and D
float slew_limit_max, slew_limit_tau;
SlewLimiter slew_limiter_P{slew_limit_max, slew_limit_tau};
SlewLimiter slew_limiter_D{slew_limit_max, slew_limit_tau};
float max_actuator;
float min_actuator;
float max_rate;
float min_rate;
float max_target;
float min_target;
float max_P;
float max_D;
float min_Dmod;
float max_Dmod;
float max_SRate_P;
float max_SRate_D;
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float FF_single;
uint16_t ff_count;
float dt;
float D_limit;
float P_limit;
uint32_t D_set_ms;
uint32_t P_set_ms;
uint8_t done_count;
};