1 | // %flair:license{
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2 | // This file is part of the Flair framework distributed under the
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3 | // CECILL-C License, Version 1.0.
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4 | // %flair:license}
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5 | // created: 2014/04/29
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6 | // filename: UavStateMachine.cpp
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7 | //
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8 | // author: Gildas Bayard, Guillaume Sanahuja
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9 | // Copyright Heudiasyc UMR UTC/CNRS 7253
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10 | //
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11 | // version: $Id: $
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12 | //
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13 | // purpose: meta class for UAV
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14 | //
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15 | //
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16 | /*********************************************************************/
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17 |
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18 | #include "UavStateMachine.h"
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19 | #include "Uav.h"
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20 | #include <DataPlot1D.h>
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21 | #include <GridLayout.h>
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22 | #include <Tab.h>
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23 | #include <TabWidget.h>
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24 | #include <PushButton.h>
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25 | #include <SpinBox.h>
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26 | #include <DoubleSpinBox.h>
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27 | #include <X4X8Multiplex.h>
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28 | #include <Bldc.h>
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29 | #include <Ahrs.h>
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30 | #include <MetaUsRangeFinder.h>
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31 | #include <ControlLaw.h>
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32 | #include <Pid.h>
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33 | #include <PidThrust.h>
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34 | #include <NestedSat.h>
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35 | #include <MetaDualShock3.h>
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36 | #include <AhrsData.h>
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37 | #include <BatteryMonitor.h>
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38 | #include <FrameworkManager.h>
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39 | #include <Vector3D.h>
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40 | #include <Vector2D.h>
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41 | #include <cvmatrix.h>
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42 | #include <stdio.h>
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43 | #include <TrajectoryGenerator1D.h>
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44 | #include <math.h>
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45 |
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46 | using namespace std;
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47 | using namespace flair::core;
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48 | using namespace flair::gui;
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49 | using namespace flair::sensor;
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50 | using namespace flair::actuator;
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51 | using namespace flair::filter;
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52 | using namespace flair::meta;
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53 |
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54 | UavStateMachine::UavStateMachine(TargetController *controller):
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55 | Thread(getFrameworkManager(),"UavStateMachine",50),
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56 | uav(GetUav()),controller(controller),failSafeMode(true),flagConnectionLost(false),flagBatteryLow(false),flagCriticalSensorLost(false),flagZTrajectoryFinished(false),safeToFly(true){
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57 | altitudeState=AltitudeState_t::Stopped;
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58 | uav->UseDefaultPlot();
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59 |
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60 | Tab *uavTab = new Tab(getFrameworkManager()->GetTabWidget(), "uav", 0);
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61 | buttonslayout = new GridLayout(uavTab->NewRow(), "buttons");
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62 | button_kill = new PushButton(buttonslayout->NewRow(), "kill");
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63 | button_start_log = new PushButton(buttonslayout->NewRow(), "start_log");
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64 | button_stop_log = new PushButton(buttonslayout->LastRowLastCol(), "stop_log");
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65 | button_take_off = new PushButton(buttonslayout->NewRow(), "take_off");
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66 | button_land = new PushButton(buttonslayout->LastRowLastCol(), "land");
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67 |
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68 | Tab *lawTab = new Tab(getFrameworkManager()->GetTabWidget(), "control laws");
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69 | TabWidget *tabWidget = new TabWidget(lawTab->NewRow(), "laws");
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70 | setupLawTab = new Tab(tabWidget, "Setup");
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71 | graphLawTab = new Tab(tabWidget, "Graphes");
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72 |
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73 | uRoll = new NestedSat(setupLawTab->At(0, 0), "u_roll");
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74 | uRoll->ConvertSatFromDegToRad();
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75 | uRoll->UseDefaultPlot(graphLawTab->NewRow());
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76 |
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77 | uPitch = new NestedSat(setupLawTab->At(0, 1), "u_pitch");
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78 | uPitch->ConvertSatFromDegToRad();
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79 | uPitch->UseDefaultPlot(graphLawTab->LastRowLastCol());
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80 |
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81 | uYaw = new Pid(setupLawTab->At(0, 2), "u_yaw");
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82 | uYaw->UseDefaultPlot(graphLawTab->LastRowLastCol());
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83 |
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84 | uZ = new PidThrust(setupLawTab->At(1, 2), "u_z");
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85 | uZ->UseDefaultPlot(graphLawTab->LastRowLastCol());
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86 |
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87 | getFrameworkManager()->AddDeviceToLog(uZ);
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88 | uZ->AddDeviceToLog(uRoll);
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89 | uZ->AddDeviceToLog(uPitch);
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90 | uZ->AddDeviceToLog(uYaw);
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91 |
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92 | joy=new MetaDualShock3("uav high level controller",controller);
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93 | uav->GetAhrs()->AddPlot(joy->GetReferenceOrientation(),DataPlot::Blue);
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94 |
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95 | altitudeMode = AltitudeMode_t::Manual;
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96 | orientationMode = OrientationMode_t::Manual;
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97 | thrustMode = ThrustMode_t::Default;
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98 | torqueMode = TorqueMode_t::Default;
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99 |
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100 | GroupBox *reglagesGroupbox =
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101 | new GroupBox(uavTab->NewRow(), "takeoff/landing");
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102 | desiredTakeoffAltitude =
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103 | new DoubleSpinBox(reglagesGroupbox->NewRow(), "desired takeoff altitude",
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104 | " m", 0, 5, 0.1, 2, 1);
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105 | desiredLandingAltitude =
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106 | new DoubleSpinBox(reglagesGroupbox->LastRowLastCol(),
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107 | "desired landing altitude", " m", 0, 1, 0.1, 1);
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108 | altitudeTrajectory =
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109 | new TrajectoryGenerator1D(uavTab->NewRow(), "alt cons", "m");
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110 | uav->GetMetaUsRangeFinder()->GetZPlot()->AddCurve(
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111 | altitudeTrajectory->Matrix()->Element(0), DataPlot::Green);
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112 | uav->GetMetaUsRangeFinder()->GetVzPlot()->AddCurve(
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113 | altitudeTrajectory->Matrix()->Element(1), DataPlot::Green);
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114 | }
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115 |
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116 | UavStateMachine::~UavStateMachine() {}
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117 |
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118 | void UavStateMachine::AddDeviceToControlLawLog(const IODevice *device) {
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119 | uZ->AddDeviceToLog(device);
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120 | }
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121 |
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122 | void UavStateMachine::AddDataToControlLawLog(const core::io_data *data) {
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123 | uZ->AddDataToLog(data);
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124 | }
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125 |
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126 | const TargetController *UavStateMachine::GetJoystick(void) const {
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127 | return controller;
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128 | }
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129 |
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130 | const Quaternion &UavStateMachine::GetCurrentQuaternion(void) const {
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131 | return currentQuaternion;
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132 | }
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133 |
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134 | const Vector3D &UavStateMachine::GetCurrentAngularSpeed(void) const {
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135 | return currentAngularSpeed;
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136 | }
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137 |
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138 | void UavStateMachine::AltitudeValues(float &altitude,
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139 | float &verticalSpeed) const {
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140 | FailSafeAltitudeValues(altitude, verticalSpeed);
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141 | }
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142 |
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143 | void UavStateMachine::FailSafeAltitudeValues(float &altitude,
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144 | float &verticalSpeed) const {
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145 | altitude = uav->GetMetaUsRangeFinder()->z();
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146 | verticalSpeed = uav->GetMetaUsRangeFinder()->Vz();
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147 | }
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148 |
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149 | void UavStateMachine::Run() {
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150 | WarnUponSwitches(true);
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151 | uav->StartSensors();
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152 |
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153 | if (getFrameworkManager()->ErrorOccured() == true) {
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154 | SafeStop();
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155 | }
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156 |
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157 | while (!ToBeStopped()) {
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158 | SecurityCheck();
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159 |
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160 | // get controller inputs
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161 | CheckJoystick();
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162 | CheckPushButton();
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163 |
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164 | if (IsPeriodSet()) {
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165 | WaitPeriod();
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166 | } else {
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167 | WaitUpdate(uav->GetAhrs());
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168 | }
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169 | needToComputeDefaultTorques = true;
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170 | needToComputeDefaultThrust = true;
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171 |
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172 | SignalEvent(Event_t::EnteringControlLoop);
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173 |
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174 | ComputeOrientation();
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175 | ComputeAltitude();
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176 |
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177 | // compute thrust and torques to apply
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178 | ComputeTorques();
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179 | ComputeThrust(); // logs are added to uz, so it must be updated at last
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180 |
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181 | //check nan/inf problems
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182 | if(!IsValuePossible(currentTorques.roll,"roll torque")
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183 | || !IsValuePossible(currentTorques.pitch,"pitch torque")
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184 | || !IsValuePossible(currentTorques.yaw,"yaw torque")
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185 | || !IsValuePossible(currentThrust,"thrust")) {
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186 |
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187 | if(altitudeState==AltitudeState_t::Stopped) {
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188 | SafeStop();
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189 | } else {
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190 |
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191 | if(failSafeMode) {
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192 | Warn("We are already in safe mode, the uav is going to crash!\n");
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193 | } else {
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194 | Thread::Warn("switching back to safe mode\n");
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195 | EnterFailSafeMode();
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196 | needToComputeDefaultTorques = true;//should not be necessary, but put it to be sure to compute default thrust/torques
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197 | needToComputeDefaultThrust = true;
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198 |
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199 | ComputeTorques();
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200 | ComputeThrust();
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201 | }
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202 | }
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203 | }
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204 |
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205 | // Set torques for roll, pitch and yaw angles (value between -1 and 1). Set
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206 | // thrust (value between 0 and 1)
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207 | uav->GetUavMultiplex()->SetRoll(-currentTorques.roll);
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208 | uav->GetUavMultiplex()->SetPitch(-currentTorques.pitch);
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209 | uav->GetUavMultiplex()->SetYaw(-currentTorques.yaw);
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210 | uav->GetUavMultiplex()->SetThrust(-currentThrust); // on raisonne en negatif
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211 | // sur l'altitude, a
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212 | // revoir avec les
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213 | // equations
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214 | uav->GetUavMultiplex()->SetRollTrim(joy->RollTrim());
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215 | uav->GetUavMultiplex()->SetPitchTrim(joy->PitchTrim());
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216 | uav->GetUavMultiplex()->SetYawTrim(0);
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217 | uav->GetUavMultiplex()->Update(GetTime());
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218 | }
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219 |
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220 | WarnUponSwitches(false);
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221 | }
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222 |
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223 | bool UavStateMachine::IsValuePossible(float value,std::string desc) {
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224 | if(isnan(value)) {
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225 | Warn("%s is not an number\n",desc.c_str());
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226 | return false;
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227 | } else if(isinf(value)) {
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228 | Warn("%s is infinite\n",desc.c_str());
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229 | return false;
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230 | } else {
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231 | return true;
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232 | }
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233 | }
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234 |
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235 |
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236 | void UavStateMachine::ComputeOrientation(void) {
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237 | if (failSafeMode) {
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238 | GetDefaultOrientation()->GetQuaternionAndAngularRates(currentQuaternion,
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239 | currentAngularSpeed);
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240 | } else {
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241 | GetOrientation()->GetQuaternionAndAngularRates(currentQuaternion,
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242 | currentAngularSpeed);
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243 | }
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244 | }
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245 |
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246 | const AhrsData *UavStateMachine::GetOrientation(void) const {
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247 | return GetDefaultOrientation();
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248 | }
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249 |
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250 | const AhrsData *UavStateMachine::GetDefaultOrientation(void) const {
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251 | return uav->GetAhrs()->GetDatas();
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252 | }
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253 |
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254 | void UavStateMachine::ComputeAltitude(void) {
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255 | if (failSafeMode) {
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256 | FailSafeAltitudeValues(currentAltitude, currentVerticalSpeed);
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257 | } else {
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258 | AltitudeValues(currentAltitude, currentVerticalSpeed);
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259 | }
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260 | }
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261 |
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262 | void UavStateMachine::ComputeReferenceAltitude(float &refAltitude,
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263 | float &refVerticalVelocity) {
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264 | if (altitudeMode == AltitudeMode_t::Manual) {
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265 | GetDefaultReferenceAltitude(refAltitude, refVerticalVelocity);
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266 | } else {
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267 | GetReferenceAltitude(refAltitude, refVerticalVelocity);
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268 | }
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269 | }
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270 |
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271 | void UavStateMachine::GetDefaultReferenceAltitude(float &refAltitude,
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272 | float &refVerticalVelocity) {
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273 | float zc, dzc;
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274 |
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275 | switch (altitudeState) {
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276 | // initiate a takeoff: increase motor speed in open loop (see ComputeThrust)
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277 | // until we detect a take off of 0.03m (hard coded value) above the ground.
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278 | case AltitudeState_t::TakingOff: {
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279 | if (currentAltitude > groundAltitude + 0.03) {
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280 | altitudeTrajectory->StartTraj(currentAltitude,
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281 | desiredTakeoffAltitude->Value());
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282 | altitudeState = AltitudeState_t::Stabilized;
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283 | SignalEvent(Event_t::Stabilized);
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284 | }
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285 | break;
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286 | }
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287 | // landing, only check if we reach desired landing altitude
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288 | case AltitudeState_t::StartLanding: {
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289 | if (altitudeTrajectory->Position() == desiredLandingAltitude->Value()) {
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290 | // The Uav target altitude has reached its landing value (typically 0)
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291 | // but the real Uav altitude may not have reach this value yet because of
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292 | // command delay. Moreover, it may never exactly reach this value if the
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293 | // ground is not perfectly leveled (critical case: there's a
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294 | // deep and narrow hole right in the sensor line of sight). That's why we
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295 | // have a 2 phases landing strategy.
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296 | altitudeState = AltitudeState_t::FinishLanding;
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297 | SignalEvent(Event_t::FinishLanding);
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298 | joy->SetLedOFF(1); // DualShock3::led1
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299 | }
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300 | }
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301 | // stabilized: check if z trajectory is finished
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302 | case AltitudeState_t::Stabilized: {
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303 | if (!altitudeTrajectory->IsRunning() && !flagZTrajectoryFinished) {
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304 | SignalEvent(Event_t::ZTrajectoryFinished);
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305 | flagZTrajectoryFinished = true;
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306 | }
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307 | if (flagZTrajectoryFinished && desiredTakeoffAltitude->ValueChanged()) {
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308 | flagZTrajectoryFinished = false;
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309 | altitudeTrajectory->StartTraj(currentAltitude,
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310 | desiredTakeoffAltitude->Value());
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311 | joy->SetZRef(0);
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312 | }
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313 | }
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314 | }
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315 |
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316 | // Récupère les consignes (du joystick dans l'implémentation par défaut). La
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317 | // consigne joystick est une vitesse ("delta_z", dzc). le zc est calculé par
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318 | // la manette
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319 | zc = joy->ZRef(); // a revoir, la position offset devrait se calculer dans le
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320 | // generator
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321 | dzc = joy->DzRef();
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322 |
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323 | // z control law
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324 | altitudeTrajectory->SetPositionOffset(zc);
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325 | altitudeTrajectory->SetSpeedOffset(dzc);
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326 |
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327 | altitudeTrajectory->Update(GetTime());
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328 | refAltitude = altitudeTrajectory->Position();
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329 | refVerticalVelocity = altitudeTrajectory->Speed();
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330 | }
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331 |
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332 | void UavStateMachine::GetReferenceAltitude(float &refAltitude,
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333 | float &refVerticalVelocity) {
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334 | Thread::Warn("Default GetReferenceAltitude method is not overloaded => "
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335 | "switching back to safe mode\n");
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336 | EnterFailSafeMode();
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337 | };
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338 |
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339 | void UavStateMachine::ComputeThrust(void) {
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340 | if (altitudeMode == AltitudeMode_t::Manual) {
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341 | currentThrust = ComputeDefaultThrust();
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342 | } else {
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343 | currentThrust = ComputeCustomThrust();
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344 | }
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345 | }
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346 |
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347 | float UavStateMachine::ComputeDefaultThrust(void) {
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348 | if (needToComputeDefaultThrust) {
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349 | // compute desired altitude
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350 | float refAltitude, refVerticalVelocity;
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351 | ComputeReferenceAltitude(refAltitude, refVerticalVelocity);
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352 |
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353 | switch (altitudeState) {
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354 | case AltitudeState_t::TakingOff: {
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355 | // The progressive increase in motor speed is used to evaluate the motor
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356 | // speed that compensate the uav weight. This value
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357 | // will be used as an offset for altitude control afterwards
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358 | uZ->OffsetStepUp();
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359 | break;
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360 | }
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361 | case AltitudeState_t::StartLanding:
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362 | case AltitudeState_t::Stabilized: {
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363 | float p_error = currentAltitude - refAltitude;
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364 | float d_error = currentVerticalSpeed - refVerticalVelocity;
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365 | uZ->SetValues(p_error, d_error);
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366 | break;
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367 | }
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368 | // decrease motor speed in open loop until value offset_g , uav should have
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369 | // already landed or be very close to at this point
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370 | case AltitudeState_t::FinishLanding: {
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371 | if (uZ->OffsetStepDown() == false) {
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372 | StopMotors();
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373 | }
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374 | break;
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375 | }
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376 | }
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377 | uZ->Update(GetTime());
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378 |
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379 | savedDefaultThrust = uZ->Output();
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380 | needToComputeDefaultThrust = false;
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381 | }
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382 |
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383 | return savedDefaultThrust;
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384 | }
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385 |
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386 | float UavStateMachine::ComputeCustomThrust(void) {
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387 | Thread::Warn("Default GetThrust method is not overloaded => switching back "
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388 | "to safe mode\n");
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389 | EnterFailSafeMode();
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390 | return ComputeDefaultThrust();
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391 | }
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392 |
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393 | const AhrsData *UavStateMachine::ComputeReferenceOrientation(void) {
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394 | if (orientationMode == OrientationMode_t::Manual) {
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395 | return GetDefaultReferenceOrientation();
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396 | } else {
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397 | return GetReferenceOrientation();
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398 | }
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399 | }
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400 |
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401 | const AhrsData *UavStateMachine::GetDefaultReferenceOrientation(void) const {
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402 | // We directly control yaw, pitch, roll angles
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403 | return joy->GetReferenceOrientation();
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404 | }
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405 |
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406 | const AhrsData *UavStateMachine::GetReferenceOrientation(void) {
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407 | Thread::Warn("Default GetReferenceOrientation method is not overloaded => "
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408 | "switching back to safe mode\n");
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409 | EnterFailSafeMode();
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410 | return GetDefaultReferenceOrientation();
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411 | }
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412 |
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413 | void UavStateMachine::ComputeTorques(void) {
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414 | if (torqueMode == TorqueMode_t::Default) {
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415 | ComputeDefaultTorques(currentTorques);
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416 | } else {
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417 | ComputeCustomTorques(currentTorques);
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418 | }
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419 | }
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420 |
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421 | void UavStateMachine::ComputeDefaultTorques(Euler &torques) {
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422 | if (needToComputeDefaultTorques) {
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423 | const AhrsData *refOrientation = ComputeReferenceOrientation();
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424 | Quaternion refQuaternion;
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425 | Vector3D refAngularRates;
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426 | refOrientation->GetQuaternionAndAngularRates(refQuaternion,
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427 | refAngularRates);
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428 | Euler refAngles = refQuaternion.ToEuler();
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429 | Euler currentAngles = currentQuaternion.ToEuler();
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430 |
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431 | uYaw->SetValues(currentAngles.YawDistanceFrom(refAngles.yaw),
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432 | currentAngularSpeed.z - refAngularRates.z);
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433 | uYaw->Update(GetTime());
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434 | torques.yaw = uYaw->Output();
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435 |
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436 | uPitch->SetValues(refAngles.pitch, currentAngles.pitch,
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437 | currentAngularSpeed.y);
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438 | uPitch->Update(GetTime());
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---|
439 | torques.pitch = uPitch->Output();
|
---|
440 |
|
---|
441 | uRoll->SetValues(refAngles.roll, currentAngles.roll, currentAngularSpeed.x);
|
---|
442 | uRoll->Update(GetTime());
|
---|
443 | torques.roll = uRoll->Output();
|
---|
444 |
|
---|
445 | savedDefaultTorques = torques;
|
---|
446 | needToComputeDefaultTorques = false;
|
---|
447 | } else {
|
---|
448 | torques = savedDefaultTorques;
|
---|
449 | }
|
---|
450 | }
|
---|
451 |
|
---|
452 | void UavStateMachine::ComputeCustomTorques(Euler &torques) {
|
---|
453 | Thread::Warn("Default ComputeCustomTorques method is not overloaded => "
|
---|
454 | "switching back to safe mode\n");
|
---|
455 | EnterFailSafeMode();
|
---|
456 | ComputeDefaultTorques(torques);
|
---|
457 | }
|
---|
458 |
|
---|
459 | void UavStateMachine::TakeOff(void) {
|
---|
460 | flagZTrajectoryFinished = false;
|
---|
461 |
|
---|
462 | if((altitudeState==AltitudeState_t::Stopped) && safeToFly) {// && GetBatteryMonitor()->IsBatteryLow()==false)
|
---|
463 | //The uav always takes off in fail safe mode
|
---|
464 | EnterFailSafeMode();
|
---|
465 | joy->SetLedOFF(4);//DualShock3::led4
|
---|
466 | joy->SetLedOFF(1);//DualShock3::led1
|
---|
467 | joy->Rumble(0x70);
|
---|
468 | joy->SetZRef(0);
|
---|
469 |
|
---|
470 | uZ->SetOffset(); // positionne l'offset de compensation de la gravité à sa
|
---|
471 | // valeur initiale (station sol)
|
---|
472 |
|
---|
473 | uav->GetUavMultiplex()->LockUserInterface();
|
---|
474 | // Active les moteurs. Pouvoir les désactiver permet de pouvoir observer les
|
---|
475 | // consignes moteurs
|
---|
476 | // sans les faire tourner effectivement (en déplaçant à la main le drone)
|
---|
477 | uav->GetBldc()->SetEnabled(true);
|
---|
478 | groundAltitude = currentAltitude;
|
---|
479 | altitudeState = AltitudeState_t::TakingOff;
|
---|
480 |
|
---|
481 | SignalEvent(Event_t::TakingOff);
|
---|
482 | } else {
|
---|
483 | joy->ErrorNotify();
|
---|
484 | }
|
---|
485 | }
|
---|
486 |
|
---|
487 | void UavStateMachine::Land(void) {
|
---|
488 | if (altitudeMode != AltitudeMode_t::Manual) {
|
---|
489 | SetAltitudeMode(AltitudeMode_t::Manual);
|
---|
490 | }
|
---|
491 | if (altitudeState == AltitudeState_t::Stabilized) {
|
---|
492 | joy->SetLedOFF(4); // DualShock3::led4
|
---|
493 | joy->Rumble(0x70);
|
---|
494 |
|
---|
495 | altitudeTrajectory->StopTraj();
|
---|
496 | joy->SetZRef(0);
|
---|
497 | altitudeTrajectory->StartTraj(currentAltitude,desiredLandingAltitude->Value()); //shouldn't it be groundAltitude?
|
---|
498 | SignalEvent(Event_t::StartLanding);
|
---|
499 | altitudeState=AltitudeState_t::StartLanding;
|
---|
500 | } else if (altitudeState==AltitudeState_t::TakingOff) {
|
---|
501 | EmergencyLand();
|
---|
502 | } else {
|
---|
503 | joy->ErrorNotify();
|
---|
504 | }
|
---|
505 | }
|
---|
506 |
|
---|
507 | void UavStateMachine::EmergencyLand(void) {
|
---|
508 | //Gradually decrease motor speed
|
---|
509 | //Called if landing is required during take off (motors are accelerating but Uav did not actually left the ground yet), or if critical sensors have been lost (attitude is lost)
|
---|
510 | altitudeState=AltitudeState_t::FinishLanding;
|
---|
511 | safeToFly=false;
|
---|
512 | Printf("Emergency landing!\n");
|
---|
513 | }
|
---|
514 |
|
---|
515 | void UavStateMachine::SignalEvent(Event_t event) {
|
---|
516 | switch (event) {
|
---|
517 | case Event_t::StartLanding:
|
---|
518 | Thread::Info("Altitude: entering 'StartLanding' state\n");
|
---|
519 | break;
|
---|
520 | case Event_t::Stopped:
|
---|
521 | Thread::Info("Altitude: entering 'Stopped' state\n");
|
---|
522 | break;
|
---|
523 | case Event_t::TakingOff:
|
---|
524 | Thread::Info("Altitude: taking off\n");
|
---|
525 | break;
|
---|
526 | case Event_t::Stabilized:
|
---|
527 | Thread::Info("Altitude: entering 'Stabilized' state\n");
|
---|
528 | break;
|
---|
529 | case Event_t::FinishLanding:
|
---|
530 | Thread::Info("Altitude: entering 'FinishLanding' state\n");
|
---|
531 | break;
|
---|
532 | case Event_t::EmergencyStop:
|
---|
533 | Thread::Info("Emergency stop!\n");
|
---|
534 | break;
|
---|
535 | }
|
---|
536 | }
|
---|
537 |
|
---|
538 | void UavStateMachine::EmergencyStop(void) {
|
---|
539 | if(altitudeState!=AltitudeState_t::Stopped) {
|
---|
540 | StopMotors();
|
---|
541 | EnterFailSafeMode();
|
---|
542 | joy->Rumble(0x70);
|
---|
543 | SignalEvent(Event_t::EmergencyStop);
|
---|
544 | }
|
---|
545 | //safeToFly=false;
|
---|
546 | //Warn("Emergency stop, UAV will not take off again until program is rerunned\n");
|
---|
547 | }
|
---|
548 |
|
---|
549 | void UavStateMachine::StopMotors(void) {
|
---|
550 | joy->FlashLed(1, 10, 10); // DualShock3::led1
|
---|
551 | uav->GetBldc()->SetEnabled(false);
|
---|
552 | uav->GetUavMultiplex()->UnlockUserInterface();
|
---|
553 | SignalEvent(Event_t::Stopped);
|
---|
554 | altitudeState = AltitudeState_t::Stopped;
|
---|
555 | uav->GetAhrs()->UnlockUserInterface();
|
---|
556 |
|
---|
557 | uZ->SetValues(0, 0);
|
---|
558 | uZ->Reset();
|
---|
559 | }
|
---|
560 |
|
---|
561 | GridLayout *UavStateMachine::GetButtonsLayout(void) const {
|
---|
562 | return buttonslayout;
|
---|
563 | }
|
---|
564 |
|
---|
565 | void UavStateMachine::SecurityCheck(void) {
|
---|
566 | MandatorySecurityCheck();
|
---|
567 | ExtraSecurityCheck();
|
---|
568 | }
|
---|
569 |
|
---|
570 | void UavStateMachine::MandatorySecurityCheck(void) {
|
---|
571 | if (getFrameworkManager()->ConnectionLost() && !flagConnectionLost) {
|
---|
572 | flagConnectionLost = true;
|
---|
573 | Thread::Err("Connection lost\n");
|
---|
574 | EnterFailSafeMode();
|
---|
575 | if (altitudeState == AltitudeState_t::Stopped) {
|
---|
576 | SafeStop();
|
---|
577 | } else {
|
---|
578 | Land();
|
---|
579 | }
|
---|
580 | }
|
---|
581 | if((altitudeState==AltitudeState_t::TakingOff || altitudeState==AltitudeState_t::Stabilized) && uav->GetBatteryMonitor()->IsBatteryLow() && !flagBatteryLow) {
|
---|
582 | flagBatteryLow=true;
|
---|
583 | Thread::Err("Low Battery\n");
|
---|
584 | EnterFailSafeMode();
|
---|
585 | Land();
|
---|
586 | }/*
|
---|
587 | Time now=GetTime();
|
---|
588 | if ((altitudeState==AltitudeState_t::Stopped) && (now-uav->GetAhrs()->lastUpdate>(Time)100*1000*1000)) { //100ms
|
---|
589 | flagCriticalSensorLost=true;
|
---|
590 | Thread::Err("Critical sensor lost\n");
|
---|
591 | EnterFailSafeMode();
|
---|
592 | EmergencyLand();
|
---|
593 | }*/
|
---|
594 | }
|
---|
595 |
|
---|
596 | void UavStateMachine::CheckJoystick(void) {
|
---|
597 | GenericCheckJoystick();
|
---|
598 | ExtraCheckJoystick();
|
---|
599 | }
|
---|
600 |
|
---|
601 | void UavStateMachine::GenericCheckJoystick(void) {
|
---|
602 | static bool isEmergencyStopButtonPressed = false;
|
---|
603 | static bool isTakeOffButtonPressed = false;
|
---|
604 | static bool isSafeModeButtonPressed = false;
|
---|
605 |
|
---|
606 | if (controller->IsButtonPressed(1)) { // select
|
---|
607 | if (!isEmergencyStopButtonPressed) {
|
---|
608 | isEmergencyStopButtonPressed = true;
|
---|
609 | Thread::Info("Emergency stop from joystick\n");
|
---|
610 | EmergencyStop();
|
---|
611 | }
|
---|
612 | } else
|
---|
613 | isEmergencyStopButtonPressed = false;
|
---|
614 |
|
---|
615 | if (controller->IsButtonPressed(0)) { // start
|
---|
616 | if (!isTakeOffButtonPressed) {
|
---|
617 | isTakeOffButtonPressed = true;
|
---|
618 | switch (altitudeState) {
|
---|
619 | case AltitudeState_t::Stopped:
|
---|
620 | TakeOff();
|
---|
621 | break;
|
---|
622 | case AltitudeState_t::Stabilized:
|
---|
623 | Land();
|
---|
624 | break;
|
---|
625 | default:
|
---|
626 | joy->ErrorNotify();
|
---|
627 | break;
|
---|
628 | }
|
---|
629 | }
|
---|
630 | } else
|
---|
631 | isTakeOffButtonPressed = false;
|
---|
632 |
|
---|
633 | // cross
|
---|
634 | // gsanahuj:conflict with Majd programs.
|
---|
635 | // check if l1,l2,r1 and r2 are not pressed
|
---|
636 | // to allow a combination in user program
|
---|
637 | if (controller->IsButtonPressed(5) && !controller->IsButtonPressed(6) &&
|
---|
638 | !controller->IsButtonPressed(7) && !controller->IsButtonPressed(9) &&
|
---|
639 | !controller->IsButtonPressed(10)) {
|
---|
640 | if (!isSafeModeButtonPressed) {
|
---|
641 | isSafeModeButtonPressed = true;
|
---|
642 | Thread::Info("Entering fail safe mode\n");
|
---|
643 | EnterFailSafeMode();
|
---|
644 | }
|
---|
645 | } else
|
---|
646 | isSafeModeButtonPressed = false;
|
---|
647 | }
|
---|
648 |
|
---|
649 | void UavStateMachine::CheckPushButton(void) {
|
---|
650 | GenericCheckPushButton();
|
---|
651 | ExtraCheckPushButton();
|
---|
652 | }
|
---|
653 |
|
---|
654 | void UavStateMachine::GenericCheckPushButton(void) {
|
---|
655 | if (button_kill->Clicked() == true)
|
---|
656 | SafeStop();
|
---|
657 | if (button_take_off->Clicked() == true)
|
---|
658 | TakeOff();
|
---|
659 | if (button_land->Clicked() == true)
|
---|
660 | Land();
|
---|
661 | if (button_start_log->Clicked() == true)
|
---|
662 | getFrameworkManager()->StartLog();
|
---|
663 | if (button_stop_log->Clicked() == true)
|
---|
664 | getFrameworkManager()->StopLog();
|
---|
665 | }
|
---|
666 |
|
---|
667 | void UavStateMachine::EnterFailSafeMode(void) {
|
---|
668 | if(altitudeState!=AltitudeState_t::StartLanding) SetAltitudeMode(AltitudeMode_t::Manual);//
|
---|
669 | SetOrientationMode(OrientationMode_t::Manual);
|
---|
670 | SetThrustMode(ThrustMode_t::Default);
|
---|
671 | SetTorqueMode(TorqueMode_t::Default);
|
---|
672 |
|
---|
673 | GetDefaultOrientation()->GetQuaternionAndAngularRates(currentQuaternion,
|
---|
674 | currentAngularSpeed);
|
---|
675 | joy->SetYawRef(currentQuaternion);
|
---|
676 | uYaw->Reset();
|
---|
677 | uPitch->Reset();
|
---|
678 | uRoll->Reset();
|
---|
679 |
|
---|
680 | failSafeMode = true;
|
---|
681 | SignalEvent(Event_t::EnteringFailSafeMode);
|
---|
682 | }
|
---|
683 |
|
---|
684 | bool UavStateMachine::ExitFailSafeMode(void) {
|
---|
685 | // only exit fail safe mode if in Stabilized altitude state
|
---|
686 | // gsanahuj: pour la demo inaugurale on ne peut pas etre en failsafe
|
---|
687 | // le ruban perturbe l'us
|
---|
688 | /*
|
---|
689 | if (altitudeState!=AltitudeState_t::Stabilized) {
|
---|
690 | return false;
|
---|
691 | } else*/ {
|
---|
692 | failSafeMode = false;
|
---|
693 | return true;
|
---|
694 | }
|
---|
695 | }
|
---|
696 |
|
---|
697 | bool UavStateMachine::SetTorqueMode(TorqueMode_t const &newTorqueMode) {
|
---|
698 | if ((newTorqueMode == TorqueMode_t::Custom) && (failSafeMode)) {
|
---|
699 | if (!ExitFailSafeMode())
|
---|
700 | return false;
|
---|
701 | }
|
---|
702 | // When transitionning from Custom to Default torque mode, we should reset the
|
---|
703 | // default control laws
|
---|
704 | if ((torqueMode == TorqueMode_t::Custom) &&
|
---|
705 | (newTorqueMode == TorqueMode_t::Default)) {
|
---|
706 | uYaw->Reset();
|
---|
707 | uPitch->Reset();
|
---|
708 | uRoll->Reset();
|
---|
709 | }
|
---|
710 | torqueMode = newTorqueMode;
|
---|
711 | return true;
|
---|
712 | }
|
---|
713 |
|
---|
714 | bool UavStateMachine::SetAltitudeMode(AltitudeMode_t const &newAltitudeMode) {
|
---|
715 | if ((newAltitudeMode == AltitudeMode_t::Custom) && (failSafeMode)) {
|
---|
716 | if (!ExitFailSafeMode())
|
---|
717 | return false;
|
---|
718 | }
|
---|
719 | altitudeMode = newAltitudeMode;
|
---|
720 | GotoAltitude(desiredTakeoffAltitude->Value());
|
---|
721 |
|
---|
722 | return true;
|
---|
723 | }
|
---|
724 |
|
---|
725 | bool UavStateMachine::GotoAltitude(float desiredAltitude) {
|
---|
726 | if (altitudeMode != AltitudeMode_t::Manual) {
|
---|
727 | return false;
|
---|
728 | }
|
---|
729 | altitudeTrajectory->StartTraj(uav->GetMetaUsRangeFinder()->z(),
|
---|
730 | desiredAltitude);
|
---|
731 | return true;
|
---|
732 | }
|
---|
733 |
|
---|
734 | bool UavStateMachine::SetOrientationMode(
|
---|
735 | OrientationMode_t const &newOrientationMode) {
|
---|
736 | if ((newOrientationMode == OrientationMode_t::Custom) && (failSafeMode)) {
|
---|
737 | if (!ExitFailSafeMode())
|
---|
738 | return false;
|
---|
739 | }
|
---|
740 | // When transitionning from Custom to Manual mode we must reset to yaw
|
---|
741 | // reference to the current absolute yaw angle,
|
---|
742 | // overwise the Uav will abruptly change orientation
|
---|
743 | if ((orientationMode == OrientationMode_t::Custom) &&
|
---|
744 | (newOrientationMode == OrientationMode_t::Manual)) {
|
---|
745 | joy->SetYawRef(currentQuaternion);
|
---|
746 | }
|
---|
747 | orientationMode = newOrientationMode;
|
---|
748 | return true;
|
---|
749 | }
|
---|
750 |
|
---|
751 | bool UavStateMachine::SetThrustMode(ThrustMode_t const &newThrustMode) {
|
---|
752 | if ((newThrustMode == ThrustMode_t::Custom) && (failSafeMode)) {
|
---|
753 | if (!ExitFailSafeMode())
|
---|
754 | return false;
|
---|
755 | }
|
---|
756 | thrustMode = newThrustMode;
|
---|
757 | return true;
|
---|
758 | }
|
---|