/// @file AP_TECS.h /// @brief Combined Total Energy Speed & Height Control. This is a instance of an /// AP_SpdHgtControl class /* * Written by Paul Riseborough 2013 to provide: * - Combined control of speed and height using throttle to control * total energy and pitch angle to control exchange of energy between * potential and kinetic. * Selectable speed or height priority modes when calculating pitch angle * - Fallback mode when no airspeed measurement is available that * sets throttle based on height rate demand and switches pitch angle control to * height priority * - Underspeed protection that demands maximum throttle switches pitch angle control * to speed priority mode * - Relative ease of tuning through use of intuitive time constant, trim rate and damping parameters and the use * of easy to measure aircraft performance data */ #pragma once #include #include #include #include #include #include class AP_TECS : public AP_SpdHgtControl { public: AP_TECS(AP_AHRS &ahrs, const AP_Vehicle::FixedWing &parms, const AP_Landing &landing) : _ahrs(ahrs) , aparm(parms) , _landing(landing) { AP_Param::setup_object_defaults(this, var_info); } /* Do not allow copies */ AP_TECS(const AP_TECS &other) = delete; AP_TECS &operator=(const AP_TECS&) = delete; // Update of the estimated height and height rate internal state // Update of the inertial speed rate internal state // Should be called at 50Hz or greater void update_50hz(void) override; // Update the control loop calculations void update_pitch_throttle(int32_t hgt_dem_cm, int32_t EAS_dem_cm, enum AP_Vehicle::FixedWing::FlightStage flight_stage, float distance_beyond_land_wp, int32_t ptchMinCO_cd, int16_t throttle_nudge, float hgt_afe, float load_factor, bool soaring_active) override; // demanded throttle in percentage // should return -100 to 100, usually positive unless reverse thrust is enabled via _THRminf < 0 int32_t get_throttle_demand(void) override { return int32_t(_throttle_dem * 100.0f); } // demanded pitch angle in centi-degrees // should return between -9000 to +9000 int32_t get_pitch_demand(void) override { return int32_t(_pitch_dem * 5729.5781f); } // Rate of change of velocity along X body axis in m/s^2 float get_VXdot(void) override { return _vel_dot; } // return current target airspeed float get_target_airspeed(void) const override { return _TAS_dem / _ahrs.get_EAS2TAS(); } // return maximum climb rate float get_max_climbrate(void) const override { return _maxClimbRate; } // added to let SoaringContoller reset pitch integrator to zero void reset_pitch_I(void) override { _integSEB_state = 0.0f; } // return landing sink rate float get_land_sinkrate(void) const override { return _land_sink; } // return landing airspeed float get_land_airspeed(void) const override { return _landAirspeed; } // return height rate demand, in m/s float get_height_rate_demand(void) const { return _hgt_rate_dem; } // set path_proportion void set_path_proportion(float path_proportion) override { _path_proportion = constrain_float(path_proportion, 0.0f, 1.0f); } // set pitch max limit in degrees void set_pitch_max_limit(int8_t pitch_limit) { _pitch_max_limit = pitch_limit; } // force use of synthetic airspeed for one loop void use_synthetic_airspeed(void) { _use_synthetic_airspeed_once = true; } // this supports the TECS_* user settable parameters static const struct AP_Param::GroupInfo var_info[]; private: // Last time update_50Hz was called uint64_t _update_50hz_last_usec; // Last time update_speed was called uint64_t _update_speed_last_usec; // Last time update_pitch_throttle was called uint64_t _update_pitch_throttle_last_usec; // reference to the AHRS object AP_AHRS &_ahrs; const AP_Vehicle::FixedWing &aparm; // reference to const AP_Landing to access it's params const AP_Landing &_landing; // TECS tuning parameters AP_Float _hgtCompFiltOmega; AP_Float _spdCompFiltOmega; AP_Float _maxClimbRate; AP_Float _minSinkRate; AP_Float _maxSinkRate; AP_Float _timeConst; AP_Float _landTimeConst; AP_Float _ptchDamp; AP_Float _land_pitch_damp; AP_Float _landDamp; AP_Float _thrDamp; AP_Float _land_throttle_damp; AP_Float _integGain; AP_Float _integGain_takeoff; AP_Float _integGain_land; AP_Float _vertAccLim; AP_Float _rollComp; AP_Float _spdWeight; AP_Float _spdWeightLand; AP_Float _landThrottle; AP_Float _landAirspeed; AP_Float _land_sink; AP_Float _land_sink_rate_change; AP_Int8 _pitch_max; AP_Int8 _pitch_min; AP_Int8 _land_pitch_max; AP_Float _maxSinkRate_approach; AP_Int32 _options; enum { OPTION_GLIDER_ONLY=(1<<0), }; // temporary _pitch_max_limit. Cleared on each loop. Clear when >= 90 int8_t _pitch_max_limit = 90; // current height estimate (above field elevation) float _height; // throttle demand in the range from -1.0 to 1.0, usually positive unless reverse thrust is enabled via _THRminf < 0 float _throttle_dem; // pitch angle demand in radians float _pitch_dem; // estimated climb rate (m/s) float _climb_rate; /* a filter to estimate climb rate if we don't have it from the EKF */ struct { // height filter second derivative float dd_height; // height integration float height; } _height_filter; // Integrator state 4 - airspeed filter first derivative float _integDTAS_state; // Integrator state 5 - true airspeed float _TAS_state; // Integrator state 6 - throttle integrator float _integTHR_state; // Integrator state 6 - pitch integrator float _integSEB_state; // throttle demand rate limiter state float _last_throttle_dem; // pitch demand rate limiter state float _last_pitch_dem; // Rate of change of speed along X axis float _vel_dot; // Equivalent airspeed float _EAS; // True airspeed limits float _TASmax; float _TASmin; // Current true airspeed demand float _TAS_dem; // Equivalent airspeed demand float _EAS_dem; // height demands float _hgt_dem; float _hgt_dem_in_old; float _hgt_dem_adj; float _hgt_dem_adj_last; float _hgt_rate_dem; float _hgt_dem_prev; float _land_hgt_dem; // Speed demand after application of rate limiting // This is the demand tracked by the TECS control loops float _TAS_dem_adj; // Speed rate demand after application of rate limiting // This is the demand tracked by the TECS control loops float _TAS_rate_dem; // Total energy rate filter state float _STEdotErrLast; struct flags { // Underspeed condition bool underspeed:1; // Bad descent condition caused by unachievable airspeed demand bool badDescent:1; // true when plane is in auto mode and executing a land mission item bool is_doing_auto_land:1; // true when we have reached target speed in takeoff bool reached_speed_takeoff:1; }; union { struct flags _flags; uint8_t _flags_byte; }; // time when underspeed started uint32_t _underspeed_start_ms; // auto mode flightstage enum AP_Vehicle::FixedWing::FlightStage _flight_stage; // pitch demand before limiting float _pitch_dem_unc; // Maximum and minimum specific total energy rate limits float _STEdot_max; float _STEdot_min; // Maximum and minimum floating point throttle limits float _THRmaxf; float _THRminf; // Maximum and minimum floating point pitch limits float _PITCHmaxf; float _PITCHminf; // Specific energy quantities float _SPE_dem; float _SKE_dem; float _SPEdot_dem; float _SKEdot_dem; float _SPE_est; float _SKE_est; float _SPEdot; float _SKEdot; // Specific energy error quantities float _STE_error; // Time since last update of main TECS loop (seconds) float _DT; // counter for demanded sink rate on land final uint8_t _flare_counter; // slew height demand lag filter value when transition to land float hgt_dem_lag_filter_slew; // percent traveled along the previous and next waypoints float _path_proportion; float _distance_beyond_land_wp; float _land_pitch_min = -90; // internal variables to be logged struct { float SKE_weighting; float SPE_error; float SKE_error; float SEB_delta; } logging; AP_Int8 _use_synthetic_airspeed; // use synthetic airspeed for next loop bool _use_synthetic_airspeed_once; // Update the airspeed internal state using a second order complementary filter void _update_speed(float load_factor); // Update the demanded airspeed void _update_speed_demand(void); // Update the demanded height void _update_height_demand(void); // Detect an underspeed condition void _detect_underspeed(void); // Update Specific Energy Quantities void _update_energies(void); // Update Demanded Throttle void _update_throttle_with_airspeed(void); // Update Demanded Throttle Non-Airspeed void _update_throttle_without_airspeed(int16_t throttle_nudge); // get integral gain which is flight_stage dependent float _get_i_gain(void); // Detect Bad Descent void _detect_bad_descent(void); // Update Demanded Pitch Angle void _update_pitch(void); // Initialise states and variables void _initialise_states(int32_t ptchMinCO_cd, float hgt_afe); // Calculate specific total energy rate limits void _update_STE_rate_lim(void); // declares a 5point average filter using floats AverageFilterFloat_Size5 _vdot_filter; // current time constant float timeConstant(void) const; };