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# include "AP_Soaring.h"
# include <GCS_MAVLink/GCS.h>
# include <stdint.h>
extern const AP_HAL : : HAL & hal ;
// ArduSoar parameters
const AP_Param : : GroupInfo SoaringController : : var_info [ ] = {
// @Param: ENABLE
// @DisplayName: Is the soaring mode enabled or not
// @Description: Toggles the soaring mode on and off
// @Values: 0:Disable,1:Enable
// @User: Advanced
AP_GROUPINFO_FLAGS ( " ENABLE " , 1 , SoaringController , soar_active , 0 , AP_PARAM_FLAG_ENABLE ) ,
// @Param: VSPEED
// @DisplayName: Vertical v-speed
// @Description: Rate of climb to trigger themalling speed
// @Units: m/s
// @Range: 0 10
// @User: Advanced
AP_GROUPINFO ( " VSPEED " , 2 , SoaringController , thermal_vspeed , 0.7f ) ,
// @Param: Q1
// @DisplayName: Process noise
// @Description: Standard deviation of noise in process for strength
// @Units:
// @Range: 0 10
// @User: Advanced
AP_GROUPINFO ( " Q1 " , 3 , SoaringController , thermal_q1 , 0.001f ) ,
// @Param: Q2
// @DisplayName: Process noise
// @Description: Standard deviation of noise in process for position and radius
// @Units:
// @Range: 0 10
// @User: Advanced
AP_GROUPINFO ( " Q2 " , 4 , SoaringController , thermal_q2 , 0.03f ) ,
// @Param: R
// @DisplayName: Measurement noise
// @Description: Standard deviation of noise in measurement
// @Units:
// @Range: 0 10
// @User: Advanced
AP_GROUPINFO ( " R " , 5 , SoaringController , thermal_r , 0.45f ) ,
// @Param: DIST_AHEAD
// @DisplayName: Distance to thermal center
// @Description: Initial guess of the distance to the thermal center
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// @Units: m
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// @Range: 0 100
// @User: Advanced
AP_GROUPINFO ( " DIST_AHEAD " , 6 , SoaringController , thermal_distance_ahead , 5.0f ) ,
// @Param: MIN_THML_S
// @DisplayName: Minimum thermalling time
// @Description: Minimum number of seconds to spend thermalling
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// @Units: s
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// @Range: 0 32768
// @User: Advanced
AP_GROUPINFO ( " MIN_THML_S " , 7 , SoaringController , min_thermal_s , 20 ) ,
// @Param: MIN_CRSE_S
// @DisplayName: Minimum cruising time
// @Description: Minimum number of seconds to spend cruising
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// @Units: s
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// @Range: 0 32768
// @User: Advanced
AP_GROUPINFO ( " MIN_CRSE_S " , 8 , SoaringController , min_cruise_s , 30 ) ,
// @Param: POLAR_CD0
// @DisplayName: Zero lift drag coef.
// @Description: Zero lift drag coefficient
// @Units:
// @Range: 0 0.5
// @User: Advanced
AP_GROUPINFO ( " POLAR_CD0 " , 9 , SoaringController , polar_CD0 , 0.027 ) ,
// @Param: POLAR_B
// @DisplayName: Induced drag coeffient
// @Description: Induced drag coeffient
// @Units:
// @Range: 0 0.5
// @User: Advanced
AP_GROUPINFO ( " POLAR_B " , 10 , SoaringController , polar_B , 0.031 ) ,
// @Param: POLAR_K
// @DisplayName: Cl factor
// @Description: Cl factor 2*m*g/(rho*S)
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// @Units: m.m/s/s
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// @Range: 0 0.5
// @User: Advanced
AP_GROUPINFO ( " POLAR_K " , 11 , SoaringController , polar_K , 25.6 ) ,
// @Param: ALT_MAX
// @DisplayName: Maximum soaring altitude, relative to the home location
// @Description: Don't thermal any higher than this.
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// @Units: m
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// @Range: 0 1000.0
// @User: Advanced
AP_GROUPINFO ( " ALT_MAX " , 12 , SoaringController , alt_max , 350.0 ) ,
// @Param: ALT_MIN
// @DisplayName: Minimum soaring altitude, relative to the home location
// @Description: Don't get any lower than this.
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// @Units: m
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// @Range: 0 1000.0
// @User: Advanced
AP_GROUPINFO ( " ALT_MIN " , 13 , SoaringController , alt_min , 50.0 ) ,
// @Param: ALT_CUTOFF
// @DisplayName: Maximum power altitude, relative to the home location
// @Description: Cut off throttle at this alt.
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// @Units: m
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// @Range: 0 1000.0
// @User: Advanced
AP_GROUPINFO ( " ALT_CUTOFF " , 14 , SoaringController , alt_cutoff , 250.0 ) ,
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// @Param: ENABLE_CH
// @DisplayName: (Optional) RC channel that toggles the soaring controller on and off
// @Description: Toggles the soaring controller on and off. This parameter has any effect only if SOAR_ENABLE is set to 1 and this parameter is set to a valid non-zero channel number. When set, soaring will be activated when RC input to the specified channel is greater than or equal to 1700.
// @Range: 0 16
// @User: Advanced
AP_GROUPINFO ( " ENABLE_CH " , 15 , SoaringController , soar_active_ch , 0 ) ,
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AP_GROUPEND
} ;
SoaringController : : SoaringController ( AP_AHRS & ahrs , AP_SpdHgtControl & spdHgt , const AP_Vehicle : : FixedWing & parms ) :
_ahrs ( ahrs ) ,
_spdHgt ( spdHgt ) ,
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_vario ( ahrs , parms ) ,
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_loiter_rad ( parms . loiter_radius ) ,
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_throttle_suppressed ( true )
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{
AP_Param : : setup_object_defaults ( this , var_info ) ;
}
void SoaringController : : get_target ( Location & wp )
{
wp = _prev_update_location ;
location_offset ( wp , _ekf . X [ 2 ] , _ekf . X [ 3 ] ) ;
}
bool SoaringController : : suppress_throttle ( )
{
float alt = 0 ;
get_altitude_wrt_home ( & alt ) ;
if ( _throttle_suppressed & & ( alt < alt_min ) ) {
// Time to throttle up
_throttle_suppressed = false ;
} else if ( ( ! _throttle_suppressed ) & & ( alt > alt_cutoff ) ) {
// Start glide
_throttle_suppressed = true ;
// Zero the pitch integrator - the nose is currently raised to climb, we need to go back to glide.
_spdHgt . reset_pitch_I ( ) ;
_cruise_start_time_us = AP_HAL : : micros64 ( ) ;
// Reset the filtered vario rate - it is currently elevated due to the climb rate and would otherwise take a while to fall again,
// leading to false positives.
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_vario . filtered_reading = 0 ;
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}
return _throttle_suppressed ;
}
bool SoaringController : : check_thermal_criteria ( )
{
return ( soar_active
& & ( ( AP_HAL : : micros64 ( ) - _cruise_start_time_us ) > ( ( unsigned ) min_cruise_s * 1e6 ) )
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& & _vario . filtered_reading > thermal_vspeed
& & _vario . alt < alt_max
& & _vario . alt > alt_min ) ;
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}
bool SoaringController : : check_cruise_criteria ( )
{
float thermalability = ( _ekf . X [ 0 ] * expf ( - powf ( _loiter_rad / _ekf . X [ 1 ] , 2 ) ) ) - EXPECTED_THERMALLING_SINK ;
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float alt = _vario . alt ;
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if ( soar_active & & ( AP_HAL : : micros64 ( ) - _thermal_start_time_us ) > ( ( unsigned ) min_thermal_s * 1e6 ) & & thermalability < McCready ( alt ) ) {
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gcs ( ) . send_text ( MAV_SEVERITY_INFO , " Thermal weak, recommend quitting: W %f R %f th %f alt %f Mc %f " , ( double ) _ekf . X [ 0 ] , ( double ) _ekf . X [ 1 ] , ( double ) thermalability , ( double ) alt , ( double ) McCready ( alt ) ) ;
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return true ;
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} else if ( soar_active & & ( alt > alt_max | | alt < alt_min ) ) {
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gcs ( ) . send_text ( MAV_SEVERITY_ALERT , " Out of allowable altitude range, beginning cruise. Alt = %f " , ( double ) alt ) ;
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return true ;
}
return false ;
}
bool SoaringController : : check_init_thermal_criteria ( )
{
if ( soar_active & & ( AP_HAL : : micros64 ( ) - _thermal_start_time_us ) < ( ( unsigned ) min_thermal_s * 1e6 ) ) {
return true ;
}
return false ;
}
void SoaringController : : init_thermalling ( )
{
// Calc filter matrices - so that changes to parameters can be updated by switching in and out of thermal mode
float r = powf ( thermal_r , 2 ) ;
float cov_q1 = powf ( thermal_q1 , 2 ) ; // State covariance
float cov_q2 = powf ( thermal_q2 , 2 ) ; // State covariance
const float init_q [ 4 ] = { cov_q1 , cov_q2 , cov_q2 , cov_q2 } ;
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const MatrixN < float , 4 > q { init_q } ;
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const float init_p [ 4 ] = { INITIAL_STRENGTH_COVARIANCE , INITIAL_RADIUS_COVARIANCE , INITIAL_POSITION_COVARIANCE , INITIAL_POSITION_COVARIANCE } ;
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const MatrixN < float , 4 > p { init_p } ;
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// New state vector filter will be reset. Thermal location is placed in front of a/c
const float init_xr [ 4 ] = { INITIAL_THERMAL_STRENGTH ,
INITIAL_THERMAL_RADIUS ,
thermal_distance_ahead * cosf ( _ahrs . yaw ) ,
thermal_distance_ahead * sinf ( _ahrs . yaw ) } ;
const VectorN < float , 4 > xr { init_xr } ;
// Also reset covariance matrix p so filter is not affected by previous data
_ekf . reset ( xr , p , q , r ) ;
_ahrs . get_position ( _prev_update_location ) ;
_prev_update_time = AP_HAL : : micros64 ( ) ;
_thermal_start_time_us = AP_HAL : : micros64 ( ) ;
}
void SoaringController : : init_cruising ( )
{
if ( is_active ( ) & & suppress_throttle ( ) ) {
_cruise_start_time_us = AP_HAL : : micros64 ( ) ;
// Start glide. Will be updated on the next loop.
_throttle_suppressed = true ;
}
}
void SoaringController : : get_wind_corrected_drift ( const Location * current_loc , const Vector3f * wind , float * wind_drift_x , float * wind_drift_y , float * dx , float * dy )
{
Vector2f diff = location_diff ( _prev_update_location , * current_loc ) ; // get distances from previous update
* dx = diff . x ;
* dy = diff . y ;
// Wind correction
* wind_drift_x = wind - > x * ( AP_HAL : : micros64 ( ) - _prev_update_time ) * 1e-6 ;
* wind_drift_y = wind - > y * ( AP_HAL : : micros64 ( ) - _prev_update_time ) * 1e-6 ;
* dx - = * wind_drift_x ;
* dy - = * wind_drift_y ;
}
void SoaringController : : get_altitude_wrt_home ( float * alt )
{
_ahrs . get_relative_position_D_home ( * alt ) ;
* alt * = - 1.0f ;
}
void SoaringController : : update_thermalling ( )
{
struct Location current_loc ;
_ahrs . get_position ( current_loc ) ;
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if ( _vario . new_data ) {
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float dx = 0 ;
float dy = 0 ;
float dx_w = 0 ;
float dy_w = 0 ;
Vector3f wind = _ahrs . wind_estimate ( ) ;
get_wind_corrected_drift ( & current_loc , & wind , & dx_w , & dy_w , & dx , & dy ) ;
# if (0)
// Print32_t filter info for debugging
int32_t i ;
for ( i = 0 ; i < 4 ; i + + ) {
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gcs ( ) . send_text ( MAV_SEVERITY_INFO , " %e " , ( double ) _ekf . P [ i ] [ i ] ) ;
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}
for ( i = 0 ; i < 4 ; i + + ) {
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gcs ( ) . send_text ( MAV_SEVERITY_INFO , " %e " , ( double ) _ekf . X [ i ] ) ;
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}
# endif
// write log - save the data.
DataFlash_Class : : instance ( ) - > Log_Write ( " SOAR " , " TimeUS,nettorate,dx,dy,x0,x1,x2,x3,lat,lng,alt,dx_w,dy_w " , " QfffffffLLfff " ,
AP_HAL : : micros64 ( ) ,
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( double ) _vario . reading ,
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( double ) dx ,
( double ) dy ,
( double ) _ekf . X [ 0 ] ,
( double ) _ekf . X [ 1 ] ,
( double ) _ekf . X [ 2 ] ,
( double ) _ekf . X [ 3 ] ,
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current_loc . lat ,
current_loc . lng ,
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( double ) _vario . alt ,
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( double ) dx_w ,
( double ) dy_w ) ;
//log_data();
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_ekf . update ( _vario . reading , dx , dy ) ; // update the filter
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_prev_update_location = current_loc ; // save for next time
_prev_update_time = AP_HAL : : micros64 ( ) ;
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_vario . new_data = false ;
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}
}
void SoaringController : : update_cruising ( )
{
// Reserved for future tasks that need to run continuously while in FBWB or AUTO mode,
// for example, calculation of optimal airspeed and flap angle.
}
void SoaringController : : update_vario ( )
{
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_vario . update ( polar_K , polar_CD0 , polar_B ) ;
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}
float SoaringController : : McCready ( float alt )
{
// A method shell to be filled in later
return thermal_vspeed ;
}
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bool SoaringController : : is_active ( ) const
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{
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if ( ! soar_active ) {
return false ;
}
if ( soar_active_ch < = 0 ) {
// no activation channel
return true ;
}
// active when above 1700
return hal . rcin - > read ( soar_active_ch - 1 ) > = 1700 ;
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}