ardupilot/libraries/AP_WindVane/AP_WindVane.h

145 lines
5.3 KiB
C++

/*
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include <AP_Param/AP_Param.h>
#include <AP_AHRS/AP_AHRS.h>
#include <AP_SerialManager/AP_SerialManager.h>
class AP_WindVane_Backend;
class AP_WindVane
{
friend class AP_WindVane_Backend;
friend class AP_WindVane_Home;
friend class AP_WindVane_Analog;
friend class AP_WindVane_SITL;
friend class AP_WindVane_ModernDevice;
friend class AP_WindVane_Airspeed;
friend class AP_WindVane_RPM;
friend class AP_WindVane_NMEA;
public:
AP_WindVane();
/* Do not allow copies */
AP_WindVane(const AP_WindVane &other) = delete;
AP_WindVane &operator=(const AP_WindVane&) = delete;
static AP_WindVane *get_singleton();
// return true if wind vane is enabled
bool enabled() const;
// Initialize the Wind Vane object and prepare it for use
void init(const AP_SerialManager& serial_manager);
// update wind vane
void update();
// get the apparent wind direction in body-frame in radians, 0 = head to wind
float get_apparent_wind_direction_rad() const {
return wrap_PI(_direction_apparent_ef - AP::ahrs().yaw);
}
// get the absolute wind direction in radians, 0 = wind coming from north
float get_absolute_wind_direction_rad() const { return _direction_absolute; }
// Return apparent wind speed
float get_apparent_wind_speed() const { return _speed_apparent; }
// Return true wind speed
float get_true_wind_speed() const { return _speed_true; }
// record home heading for use as wind direction if no sensor is fitted
void record_home_heading() { _home_heading = AP::ahrs().yaw; }
// start calibration routine
bool start_direction_calibration();
bool start_speed_calibration();
// send mavlink wind message
void send_wind(mavlink_channel_t chan);
// parameter block
static const struct AP_Param::GroupInfo var_info[];
private:
// parameters
AP_Int8 _direction_type; // type of windvane being used
AP_Int8 _rc_in_no; // RC input channel to use
AP_Int8 _dir_analog_pin; // analog pin connected to wind vane direction sensor
AP_Float _dir_analog_volt_min; // minimum voltage read by windvane
AP_Float _dir_analog_volt_max; // maximum voltage read by windvane
AP_Float _dir_analog_bearing_offset; // angle offset when windvane is indicating a headwind, ie 0 degress relative to vehicle
AP_Float _dir_analog_deadzone; // analog pot deadzone in degrees
AP_Float _dir_filt_hz; // vane Low pass filter frequency
AP_Int8 _calibration; // enter calibration
AP_Float _dir_speed_cutoff; // vane cutoff wind speed
AP_Int8 _speed_sensor_type; // wind speed sensor type
AP_Int8 _speed_sensor_speed_pin; // speed sensor analog pin for reading speed
AP_Float _speed_sensor_temp_pin; // speed sensor analog pin for reading temp, -1 if disable
AP_Float _speed_sensor_voltage_offset; // analog speed zero wind voltage offset
AP_Float _speed_filt_hz; // speed sensor low pass filter frequency
AP_WindVane_Backend *_direction_driver;
AP_WindVane_Backend *_speed_driver;
// update wind speed sensor
void update_apparent_wind_speed();
// update apparent wind direction
void update_apparent_wind_direction();
// calculate true wind speed and direction from apparent wind
void update_true_wind_speed_and_direction();
// wind direction variables
float _direction_apparent_ef; // wind's apparent direction in radians (0 = ahead of vehicle)
float _direction_absolute; // wind's absolute direction in radians (0 = North)
// wind speed variables
float _speed_apparent; // wind's apparent speed in m/s
float _speed_true; // wind's true estimated speed in m/s
// heading in radians recorded when vehicle was armed
float _home_heading;
enum WindVaneType {
WINDVANE_NONE = 0,
WINDVANE_HOME_HEADING = 1,
WINDVANE_PWM_PIN = 2,
WINDVANE_ANALOG_PIN = 3,
WINDVANE_NMEA = 4,
WINDVANE_SITL = 10
};
enum Speed_type {
WINDSPEED_NONE = 0,
WINDSPEED_AIRSPEED = 1,
WINDVANE_WIND_SENSOR_REV_P = 2,
WINDSPEED_RPM = 3,
WINDSPEED_NMEA = 4,
WINDSPEED_SITL = 10
};
static AP_WindVane *_singleton;
};
namespace AP {
AP_WindVane *windvane();
};