ardupilot/libraries/AP_OpticalFlow/AP_OpticalFlow_Calibrator.h

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2020-10-08 10:03:04 -03:00
#pragma once
#include <AP_Math/AP_Math.h>
#define AP_OPTICALFLOW_CAL_MAX_SAMPLES 50 // number of samples required before calibration begins
class AP_OpticalFlow_Calibrator {
public:
AP_OpticalFlow_Calibrator() {};
// start or stop the calibration
void start();
void stop();
// update the state machine and calculate scaling
// returns true if new scaling values have been found
bool update();
// get final scaling values
// scaling values used during sample collection should be multiplied by these scalars
Vector2f get_scalars();
private:
// single sample for a single axis
struct sample_t {
float flow_rate;
float body_rate;
float los_pred;
};
// attempt to add a new sample to the buffer
void add_sample(uint32_t timestamp_ms, const Vector2f& flow_rate, const Vector2f& body_rate, const Vector2f& los_pred);
// returns true once the sample buffer is full
bool sample_buffers_full() const;
// run calibration algorithm for both axis
// returns true on success and updates _cal_data[0,1].best_scale and best_scale_fitness
bool run_calibration();
// Run fitting algorithm for all samples of the given axis
// returns a scalar and fitness (lower numbers mean a better result) in the arguments provided
bool calc_scalars(uint8_t axis, float& scalar, float& fitness);
// calculate a single sample's residual given a scalar parameter
float calc_sample_residual(const sample_t& sample, float scalar) const;
// calculate the scalar that minimises the residual for a single sample
// returns true on success and populates the best_scalar argument
bool calc_sample_best_scalar(const sample_t& sample, float& best_scalar) const;
// calculate mean squared residual for all samples of a single axis (0 or 1) given a scalar parameter
float calc_mean_squared_residuals(uint8_t axis, float scalar) const;
// log a sample
void log_sample(uint8_t axis, uint8_t sample_num, float flow_rate, float body_rate, float los_pred);
// calibration states
enum class CalState {
NOT_STARTED = 0,
RUNNING, // collecting samples
READY_TO_CALIBRATE, // ready to calibrate (may wait until vehicle is disarmed)
SUCCESS,
FAILED
} _cal_state;
// local variables
uint32_t _start_time_ms; // time the calibration was started
struct {
sample_t samples[AP_OPTICALFLOW_CAL_MAX_SAMPLES]; // buffer of sensor samples
uint8_t num_samples; // number of samples in samples buffer
float best_scalar; // best scaling value found so far
float best_scalar_fitness; // fitness (rms of error) of best scaling value
} _cal_data[2]; // x and y axis
uint32_t _last_sample_timestamp_ms; // system time of last sample's timestamp, used to ignore duplicates
uint32_t _last_report_ms; // system time of last status report
};