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43ec464737
1. Avoid neutral thrust calcs in altvario typically used in forward flight 2. Capture stick state for debugging into altitudeholdstatus
551 lines
19 KiB
C++
551 lines
19 KiB
C++
/*
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******************************************************************************
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*
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* @file vtolflycontroller.cpp
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* @author The OpenPilot Team, http://www.openpilot.org Copyright (C) 2015.
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* @brief Class implements the fly controller for vtols
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* @see The GNU Public License (GPL) Version 3
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*
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*****************************************************************************/
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/*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 3 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful, but
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* WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
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* or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
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* for more details.
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*
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* You should have received a copy of the GNU General Public License along
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* with this program; if not, write to the Free Software Foundation, Inc.,
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* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
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*/
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extern "C" {
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#include <openpilot.h>
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#include <callbackinfo.h>
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#include <math.h>
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#include <pid.h>
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#include <CoordinateConversions.h>
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#include <sin_lookup.h>
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#include <pathdesired.h>
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#include <paths.h>
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#include "plans.h"
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#include <sanitycheck.h>
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#include <accelstate.h>
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#include <vtolpathfollowersettings.h>
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#include <flightstatus.h>
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#include <flightmodesettings.h>
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#include <pathstatus.h>
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#include <positionstate.h>
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#include <velocitystate.h>
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#include <velocitydesired.h>
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#include <stabilizationdesired.h>
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#include <attitudestate.h>
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#include <takeofflocation.h>
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#include <poilocation.h>
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#include <manualcontrolcommand.h>
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#include <systemsettings.h>
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#include <stabilizationbank.h>
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#include <stabilizationdesired.h>
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#include <vtolselftuningstats.h>
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#include <pathsummary.h>
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}
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// C++ includes
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#include "vtolflycontroller.h"
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#include "pathfollowerfsm.h"
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#include "pidcontroldown.h"
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#include "pidcontrolne.h"
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// Private constants
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#define DEADBAND_HIGH 0.10f
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#define DEADBAND_LOW -0.10f
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#define RTB_LAND_FRACTIONAL_PROGRESS_START_CHECKS 0.95f
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#define RTB_LAND_NE_DISTANCE_REQUIRED_TO_START_LAND_SEQUENCE 2.0f
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// pointer to a singleton instance
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VtolFlyController *VtolFlyController::p_inst = 0;
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VtolFlyController::VtolFlyController()
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: vtolPathFollowerSettings(NULL), mActive(false), mManualThrust(false), mMode(0), vtolEmergencyFallback(0.0f), vtolEmergencyFallbackSwitch(false)
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{}
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// Called when mode first engaged
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void VtolFlyController::Activate(void)
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{
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if (!mActive) {
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mActive = true;
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mManualThrust = false;
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SettingsUpdated();
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controlDown.Activate();
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controlNE.Activate();
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mMode = pathDesired->Mode;
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vtolEmergencyFallback = 0.0f;
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vtolEmergencyFallbackSwitch = false;
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}
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}
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uint8_t VtolFlyController::IsActive(void)
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{
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return mActive;
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}
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uint8_t VtolFlyController::Mode(void)
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{
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return mMode;
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}
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// Objective updated in pathdesired
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void VtolFlyController::ObjectiveUpdated(void)
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{}
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void VtolFlyController::Deactivate(void)
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{
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if (mActive) {
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mActive = false;
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mManualThrust = false;
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controlDown.Deactivate();
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controlNE.Deactivate();
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vtolEmergencyFallback = 0.0f;
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vtolEmergencyFallbackSwitch = false;
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}
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}
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void VtolFlyController::SettingsUpdated(void)
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{
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const float dT = vtolPathFollowerSettings->UpdatePeriod / 1000.0f;
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controlNE.UpdateParameters(vtolPathFollowerSettings->HorizontalVelPID.Kp,
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vtolPathFollowerSettings->HorizontalVelPID.Ki,
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vtolPathFollowerSettings->HorizontalVelPID.Kd,
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vtolPathFollowerSettings->HorizontalVelPID.Beta,
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dT,
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vtolPathFollowerSettings->HorizontalVelMax);
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controlNE.UpdatePositionalParameters(vtolPathFollowerSettings->HorizontalPosP);
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controlNE.UpdateCommandParameters(-vtolPathFollowerSettings->MaxRollPitch, vtolPathFollowerSettings->MaxRollPitch, vtolPathFollowerSettings->VelocityFeedforward);
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controlDown.UpdateParameters(vtolPathFollowerSettings->VerticalVelPID.Kp,
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vtolPathFollowerSettings->VerticalVelPID.Ki,
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vtolPathFollowerSettings->VerticalVelPID.Kd,
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vtolPathFollowerSettings->VerticalVelPID.Beta,
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dT,
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vtolPathFollowerSettings->VerticalVelMax);
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controlDown.UpdatePositionalParameters(vtolPathFollowerSettings->VerticalPosP);
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VtolSelfTuningStatsData vtolSelfTuningStats;
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VtolSelfTuningStatsGet(&vtolSelfTuningStats);
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controlDown.UpdateNeutralThrust(vtolSelfTuningStats.NeutralThrustOffset + vtolPathFollowerSettings->ThrustLimits.Neutral);
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controlDown.SetThrustLimits(vtolPathFollowerSettings->ThrustLimits.Min, vtolPathFollowerSettings->ThrustLimits.Max);
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// disable neutral thrust calcs which should only be done in a hold mode.
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controlDown.DisableNeutralThrustCalc();
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}
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/**
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* Initialise the module, called on startup
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* \returns 0 on success or -1 if initialisation failed
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*/
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int32_t VtolFlyController::Initialize(VtolPathFollowerSettingsData *ptr_vtolPathFollowerSettings)
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{
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PIOS_Assert(ptr_vtolPathFollowerSettings);
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vtolPathFollowerSettings = ptr_vtolPathFollowerSettings;
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return 0;
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}
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/**
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* Compute desired velocity from the current position and path
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*/
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void VtolFlyController::UpdateVelocityDesired()
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{
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PositionStateData positionState;
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PositionStateGet(&positionState);
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VelocityStateData velocityState;
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VelocityStateGet(&velocityState);
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controlNE.UpdateVelocityState(velocityState.North, velocityState.East);
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controlDown.UpdateVelocityState(velocityState.Down);
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VelocityDesiredData velocityDesired;
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// look ahead kFF seconds
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float cur[3] = { positionState.North + (velocityState.North * vtolPathFollowerSettings->CourseFeedForward),
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positionState.East + (velocityState.East * vtolPathFollowerSettings->CourseFeedForward),
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positionState.Down + (velocityState.Down * vtolPathFollowerSettings->CourseFeedForward) };
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struct path_status progress;
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path_progress(pathDesired, cur, &progress, true);
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controlNE.ControlPositionWithPath(&progress);
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if (!mManualThrust) {
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controlDown.ControlPositionWithPath(&progress);
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}
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float north, east;
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controlNE.GetVelocityDesired(&north, &east);
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velocityDesired.North = north;
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velocityDesired.East = east;
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if (!mManualThrust) {
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velocityDesired.Down = controlDown.GetVelocityDesired();
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} else { velocityDesired.Down = 0.0f; }
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// update pathstatus
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pathStatus->error = progress.error;
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pathStatus->fractional_progress = progress.fractional_progress;
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pathStatus->path_direction_north = progress.path_vector[0];
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pathStatus->path_direction_east = progress.path_vector[1];
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pathStatus->path_direction_down = progress.path_vector[2];
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pathStatus->correction_direction_north = progress.correction_vector[0];
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pathStatus->correction_direction_east = progress.correction_vector[1];
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pathStatus->correction_direction_down = progress.correction_vector[2];
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VelocityDesiredSet(&velocityDesired);
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}
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int8_t VtolFlyController::UpdateStabilizationDesired(bool yaw_attitude, float yaw_direction)
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{
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uint8_t result = 1;
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StabilizationDesiredData stabDesired;
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AttitudeStateData attitudeState;
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StabilizationBankData stabSettings;
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float northCommand;
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float eastCommand;
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StabilizationDesiredGet(&stabDesired);
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AttitudeStateGet(&attitudeState);
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StabilizationBankGet(&stabSettings);
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controlNE.GetNECommand(&northCommand, &eastCommand);
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float angle_radians = DEG2RAD(attitudeState.Yaw);
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float cos_angle = cosf(angle_radians);
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float sine_angle = sinf(angle_radians);
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float maxPitch = vtolPathFollowerSettings->MaxRollPitch;
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stabDesired.StabilizationMode.Pitch = STABILIZATIONDESIRED_STABILIZATIONMODE_ATTITUDE;
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stabDesired.Pitch = boundf(-northCommand * cos_angle - eastCommand * sine_angle, -maxPitch, maxPitch); // this should be in the controller
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stabDesired.StabilizationMode.Roll = STABILIZATIONDESIRED_STABILIZATIONMODE_ATTITUDE;
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stabDesired.Roll = boundf(-northCommand * sine_angle + eastCommand * cos_angle, -maxPitch, maxPitch);
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ManualControlCommandData manualControl;
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ManualControlCommandGet(&manualControl);
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// TODO The below need to be rewritten because the PID implementation has changed.
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#if 0
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// DEBUG HACK: allow user to skew compass on purpose to see if emergency failsafe kicks in
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if (vtolPathFollowerSettings->FlyawayEmergencyFallback == VTOLPATHFOLLOWERSETTINGS_FLYAWAYEMERGENCYFALLBACK_DEBUGTEST) {
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attitudeState.Yaw += 120.0f;
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if (attitudeState.Yaw > 180.0f) {
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attitudeState.Yaw -= 360.0f;
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}
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}
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if ( // emergency flyaway detection
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( // integral already at its limit
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vtolPathFollowerSettings.HorizontalVelPID.ILimit - fabsf(global.PIDvel[0].iAccumulator) < 1e-6f ||
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vtolPathFollowerSettings.HorizontalVelPID.ILimit - fabsf(global.PIDvel[1].iAccumulator) < 1e-6f
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) &&
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// angle between desired and actual velocity >90 degrees (by dot product)
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(velocityDesired.North * velocityState.North + velocityDesired.East * velocityState.East < 0.0f) &&
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// quad is moving at significant speed (during flyaway it would keep speeding up)
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squaref(velocityState.North) + squaref(velocityState.East) > 1.0f
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) {
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vtolEmergencyFallback += dT;
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if (vtolEmergencyFallback >= vtolPathFollowerSettings->FlyawayEmergencyFallbackTriggerTime) {
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// after emergency timeout, trigger alarm - everything else is handled by callers
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// (switch to emergency algorithm, switch to emergency waypoint in pathplanner, alarms, ...)
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result = 0;
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}
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} else {
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vtolEmergencyFallback = 0.0f;
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}
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#endif // if 0
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if (yaw_attitude) {
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stabDesired.StabilizationMode.Yaw = STABILIZATIONDESIRED_STABILIZATIONMODE_ATTITUDE;
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stabDesired.Yaw = yaw_direction;
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} else {
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stabDesired.StabilizationMode.Yaw = STABILIZATIONDESIRED_STABILIZATIONMODE_AXISLOCK;
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stabDesired.Yaw = stabSettings.MaximumRate.Yaw * manualControl.Yaw;
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}
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// default thrust mode to cruise control
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stabDesired.StabilizationMode.Thrust = STABILIZATIONDESIRED_STABILIZATIONMODE_CRUISECONTROL;
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if (mManualThrust) {
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stabDesired.Thrust = manualControl.Thrust;
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} else {
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stabDesired.Thrust = controlDown.GetDownCommand();
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}
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StabilizationDesiredSet(&stabDesired);
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return result;
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}
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/**
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* Compute desired attitude for vtols - emergency fallback
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*/
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void VtolFlyController::UpdateDesiredAttitudeEmergencyFallback()
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{
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VelocityDesiredData velocityDesired;
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VelocityStateData velocityState;
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StabilizationDesiredData stabDesired;
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float courseError;
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float courseCommand;
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VelocityStateGet(&velocityState);
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VelocityDesiredGet(&velocityDesired);
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ManualControlCommandData manualControlData;
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ManualControlCommandGet(&manualControlData);
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courseError = RAD2DEG(atan2f(velocityDesired.East, velocityDesired.North) - atan2f(velocityState.East, velocityState.North));
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if (courseError < -180.0f) {
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courseError += 360.0f;
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}
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if (courseError > 180.0f) {
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courseError -= 360.0f;
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}
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courseCommand = (courseError * vtolPathFollowerSettings->EmergencyFallbackYawRate.kP);
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stabDesired.Yaw = boundf(courseCommand, -vtolPathFollowerSettings->EmergencyFallbackYawRate.Max, vtolPathFollowerSettings->EmergencyFallbackYawRate.Max);
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controlDown.UpdateVelocitySetpoint(velocityDesired.Down);
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controlDown.UpdateVelocityState(velocityState.Down);
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stabDesired.Thrust = controlDown.GetDownCommand();
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stabDesired.Roll = vtolPathFollowerSettings->EmergencyFallbackAttitude.Roll;
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stabDesired.Pitch = vtolPathFollowerSettings->EmergencyFallbackAttitude.Pitch;
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if (vtolPathFollowerSettings->ThrustControl == VTOLPATHFOLLOWERSETTINGS_THRUSTCONTROL_MANUAL) {
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stabDesired.Thrust = manualControlData.Thrust;
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}
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stabDesired.StabilizationMode.Roll = STABILIZATIONDESIRED_STABILIZATIONMODE_ATTITUDE;
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stabDesired.StabilizationMode.Pitch = STABILIZATIONDESIRED_STABILIZATIONMODE_ATTITUDE;
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stabDesired.StabilizationMode.Yaw = STABILIZATIONDESIRED_STABILIZATIONMODE_RATE;
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stabDesired.StabilizationMode.Thrust = STABILIZATIONDESIRED_STABILIZATIONMODE_CRUISECONTROL;
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StabilizationDesiredSet(&stabDesired);
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}
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void VtolFlyController::UpdateAutoPilot()
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{
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if (vtolPathFollowerSettings->ThrustControl == VTOLPATHFOLLOWERSETTINGS_THRUSTCONTROL_MANUAL) {
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mManualThrust = true;
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}
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uint8_t result = RunAutoPilot();
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if (result) {
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AlarmsSet(SYSTEMALARMS_ALARM_GUIDANCE, SYSTEMALARMS_ALARM_OK);
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} else {
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pathStatus->Status = PATHSTATUS_STATUS_CRITICAL;
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AlarmsSet(SYSTEMALARMS_ALARM_GUIDANCE, SYSTEMALARMS_ALARM_WARNING);
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}
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PathStatusSet(pathStatus);
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// If rtbl, detect arrival at the endpoint and then triggers a change
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// to the pathDesired to initiate a Landing sequence. This is the simpliest approach. plans.c
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// can't manage this. And pathplanner whilst similar does not manage this as it is not a
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// waypoint traversal and is not aware of flight modes other than path plan.
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if ((uint8_t)pathDesired->ModeParameters[PATHDESIRED_MODEPARAMETER_GOTOENDPOINT_NEXTCOMMAND] == FLIGHTMODESETTINGS_RETURNTOBASENEXTCOMMAND_LAND) {
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if (pathStatus->fractional_progress > RTB_LAND_FRACTIONAL_PROGRESS_START_CHECKS) {
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if (fabsf(pathStatus->correction_direction_north) < RTB_LAND_NE_DISTANCE_REQUIRED_TO_START_LAND_SEQUENCE && fabsf(pathStatus->correction_direction_east) < RTB_LAND_NE_DISTANCE_REQUIRED_TO_START_LAND_SEQUENCE) {
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plan_setup_land();
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}
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}
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}
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}
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/**
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* vtol autopilot
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* use hover capable algorithm with unlimeted movement calculation. if that fails (flyaway situation due to compass failure)
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* fall back to emergency fallback autopilot to keep minimum amount of flight control
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*/
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uint8_t VtolFlyController::RunAutoPilot()
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{
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enum { RETURN_0 = 0, RETURN_1 = 1, RETURN_RESULT } returnmode;
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enum { FOLLOWER_REGULAR, FOLLOWER_FALLBACK } followermode;
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uint8_t result = 0;
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// decide on behaviour based on settings and system state
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if (vtolEmergencyFallbackSwitch) {
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returnmode = RETURN_0;
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followermode = FOLLOWER_FALLBACK;
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} else {
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if (vtolPathFollowerSettings->FlyawayEmergencyFallback == VTOLPATHFOLLOWERSETTINGS_FLYAWAYEMERGENCYFALLBACK_ALWAYS) {
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returnmode = RETURN_1;
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followermode = FOLLOWER_FALLBACK;
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} else {
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returnmode = RETURN_RESULT;
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followermode = FOLLOWER_REGULAR;
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}
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}
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switch (followermode) {
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case FOLLOWER_REGULAR:
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{
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// horizontal position control PID loop works according to settings in regular mode, allowing integral terms
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UpdateVelocityDesired();
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// yaw behaviour is configurable in vtolpathfollower, select yaw control algorithm
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bool yaw_attitude = true;
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float yaw = 0.0f;
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switch (vtolPathFollowerSettings->YawControl) {
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case VTOLPATHFOLLOWERSETTINGS_YAWCONTROL_MANUAL:
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yaw_attitude = false;
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break;
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case VTOLPATHFOLLOWERSETTINGS_YAWCONTROL_TAILIN:
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yaw = updateTailInBearing();
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break;
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case VTOLPATHFOLLOWERSETTINGS_YAWCONTROL_MOVEMENTDIRECTION:
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yaw = updateCourseBearing();
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break;
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case VTOLPATHFOLLOWERSETTINGS_YAWCONTROL_PATHDIRECTION:
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yaw = updatePathBearing();
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break;
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case VTOLPATHFOLLOWERSETTINGS_YAWCONTROL_POI:
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yaw = updatePOIBearing();
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break;
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}
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result = UpdateStabilizationDesired(yaw_attitude, yaw);
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if (!result) {
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if (vtolPathFollowerSettings->FlyawayEmergencyFallback != VTOLPATHFOLLOWERSETTINGS_FLYAWAYEMERGENCYFALLBACK_DISABLED) {
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// switch to emergency follower if follower indicates problems
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vtolEmergencyFallbackSwitch = true;
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}
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}
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}
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break;
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case FOLLOWER_FALLBACK:
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{
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// fallback loop only cares about intended horizontal flight direction, simplify control behaviour accordingly
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controlNE.UpdatePositionalParameters(1.0f);
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UpdateVelocityDesired();
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// emergency follower has no return value
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UpdateDesiredAttitudeEmergencyFallback();
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}
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break;
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}
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switch (returnmode) {
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case RETURN_RESULT:
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return result;
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default:
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// returns either 0 or 1 according to enum definition above
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return returnmode;
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}
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}
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/**
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* Compute bearing of current takeoff location
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*/
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float VtolFlyController::updateTailInBearing()
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{
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PositionStateData p;
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PositionStateGet(&p);
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TakeOffLocationData t;
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TakeOffLocationGet(&t);
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// atan2f always returns in between + and - 180 degrees
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return RAD2DEG(atan2f(p.East - t.East, p.North - t.North));
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|
}
|
|
|
|
|
|
/**
|
|
* Compute bearing of current movement direction
|
|
*/
|
|
float VtolFlyController::updateCourseBearing()
|
|
{
|
|
VelocityStateData v;
|
|
|
|
VelocityStateGet(&v);
|
|
// atan2f always returns in between + and - 180 degrees
|
|
return RAD2DEG(atan2f(v.East, v.North));
|
|
}
|
|
|
|
|
|
/**
|
|
* Compute bearing of current path direction
|
|
*/
|
|
float VtolFlyController::updatePathBearing()
|
|
{
|
|
PositionStateData positionState;
|
|
|
|
PositionStateGet(&positionState);
|
|
|
|
float cur[3] = { positionState.North,
|
|
positionState.East,
|
|
positionState.Down };
|
|
struct path_status progress;
|
|
|
|
path_progress(pathDesired, cur, &progress, true);
|
|
|
|
// atan2f always returns in between + and - 180 degrees
|
|
return RAD2DEG(atan2f(progress.path_vector[1], progress.path_vector[0]));
|
|
}
|
|
|
|
|
|
/**
|
|
* Compute bearing between current position and POI
|
|
*/
|
|
float VtolFlyController::updatePOIBearing()
|
|
{
|
|
PoiLocationData poi;
|
|
|
|
PoiLocationGet(&poi);
|
|
PositionStateData positionState;
|
|
PositionStateGet(&positionState);
|
|
|
|
const float dT = vtolPathFollowerSettings->UpdatePeriod / 1000.0f;
|
|
float dLoc[3];
|
|
float yaw = 0;
|
|
/*float elevation = 0;*/
|
|
|
|
dLoc[0] = positionState.North - poi.North;
|
|
dLoc[1] = positionState.East - poi.East;
|
|
dLoc[2] = positionState.Down - poi.Down;
|
|
|
|
if (dLoc[1] < 0) {
|
|
yaw = RAD2DEG(atan2f(dLoc[1], dLoc[0])) + 180.0f;
|
|
} else {
|
|
yaw = RAD2DEG(atan2f(dLoc[1], dLoc[0])) - 180.0f;
|
|
}
|
|
ManualControlCommandData manualControlData;
|
|
ManualControlCommandGet(&manualControlData);
|
|
|
|
float pathAngle = 0;
|
|
if (manualControlData.Roll > DEADBAND_HIGH) {
|
|
pathAngle = -(manualControlData.Roll - DEADBAND_HIGH) * dT * 300.0f;
|
|
} else if (manualControlData.Roll < DEADBAND_LOW) {
|
|
pathAngle = -(manualControlData.Roll - DEADBAND_LOW) * dT * 300.0f;
|
|
}
|
|
|
|
return yaw + (pathAngle / 2.0f);
|
|
}
|