#pragma once #include #include #include #include #include "AP_Airspeed_Backend.h" class Airspeed_Calibration { public: friend class AP_Airspeed; // constructor Airspeed_Calibration(); // initialise the calibration void init(float initial_ratio); // take current airspeed in m/s and ground speed vector and return // new scaling factor float update(float airspeed, const Vector3f &vg, int16_t max_airspeed_allowed_during_cal); private: // state of kalman filter for airspeed ratio estimation Matrix3f P; // covarience matrix const float Q0; // process noise matrix top left and middle element const float Q1; // process noise matrix bottom right element Vector3f state; // state vector const float DT; // time delta }; class AP_Airspeed { public: friend class AP_Airspeed_Backend; // constructor AP_Airspeed(); void init(void); // read the analog source and update _airspeed void read(void); // calibrate the airspeed. This must be called on startup if the // altitude/climb_rate/acceleration interfaces are ever used void calibrate(bool in_startup); // return the current airspeed in m/s float get_airspeed(void) const { return _airspeed; } // return the unfiltered airspeed in m/s float get_raw_airspeed(void) const { return _raw_airspeed; } // return the current airspeed in cm/s float get_airspeed_cm(void) const { return _airspeed*100; } // return the current airspeed ratio (dimensionless) float get_airspeed_ratio(void) const { return _ratio; } // get temperature if available bool get_temperature(float &temperature); // set the airspeed ratio (dimensionless) void set_airspeed_ratio(float ratio) { _ratio.set(ratio); } // return true if airspeed is enabled, and airspeed use is set bool use(void) const; // return true if airspeed is enabled bool enabled(void) const { return _type.get() != TYPE_NONE; } // force disable the airspeed sensor void disable(void) { _type.set(TYPE_NONE); } // used by HIL to set the airspeed void set_HIL(float airspeed) { _airspeed = airspeed; } // return the differential pressure in Pascal for the last // airspeed reading. Used by the calibration code float get_differential_pressure(void) const { return _last_pressure; } // return the current offset float get_offset(void) const { return _offset; } // return the current corrected pressure float get_corrected_pressure(void) const { return _corrected_pressure; } // set the apparent to true airspeed ratio void set_EAS2TAS(float v) { _EAS2TAS = v; } // get the apparent to true airspeed ratio float get_EAS2TAS(void) const { return _EAS2TAS; } // update airspeed ratio calibration void update_calibration(const Vector3f &vground, int16_t max_airspeed_allowed_during_cal); // log data to MAVLink void log_mavlink_send(mavlink_channel_t chan, const Vector3f &vground); // return health status of sensor bool healthy(void) const { return _healthy && fabsf(_offset) > 0 && enabled(); } void setHIL(float pressure) { _healthy=_hil_set=true; _hil_pressure=pressure; } // return time in ms of last update uint32_t last_update_ms(void) const { return _last_update_ms; } void setHIL(float airspeed, float diff_pressure, float temperature); static const struct AP_Param::GroupInfo var_info[]; enum pitot_tube_order { PITOT_TUBE_ORDER_POSITIVE = 0, PITOT_TUBE_ORDER_NEGATIVE = 1, PITOT_TUBE_ORDER_AUTO = 2 }; enum airspeed_type { TYPE_NONE=0, TYPE_I2C_MS4525=1, TYPE_ANALOG=2, TYPE_I2C_MS5525=3, }; private: AP_Float _offset; AP_Float _ratio; AP_Float _psi_range; AP_Int8 _use; AP_Int8 _type; AP_Int8 _pin; AP_Int8 _bus; AP_Int8 _autocal; AP_Int8 _tube_order; AP_Int8 _skip_cal; float _raw_airspeed; float _airspeed; float _last_pressure; float _filtered_pressure; float _corrected_pressure; float _EAS2TAS; bool _healthy:1; bool _hil_set:1; float _hil_pressure; uint32_t _last_update_ms; // state of runtime calibration struct { uint32_t start_ms; uint16_t count; float sum; uint16_t read_count; } _cal; Airspeed_Calibration _calibration; float _last_saved_ratio; uint8_t _counter; float get_pressure(void); void update_calibration(float raw_pressure); AP_Airspeed_Backend *sensor; };