1 | // created: 2011/05/01
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2 | // filename: DemoOpticalFlow.cpp
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3 | //
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4 | // author: Guillaume Sanahuja
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5 | // Copyright Heudiasyc UMR UTC/CNRS 7253
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6 | //
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7 | // version: $Id: $
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8 | //
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9 | // purpose: demo optical flow
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10 | //
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11 | //
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12 | /*********************************************************************/
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13 |
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14 | #include "DemoOpticalFlow.h"
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15 | #include <Uav.h>
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16 | #include <Camera.h>
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17 | #include <CvtColor.h>
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18 | #include <OpticalFlow.h>
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19 | #include <OpticalFlowCompensated.h>
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20 | #include <OpticalFlowSpeed.h>
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21 | #include <LowPassFilter.h>
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22 | #include <EulerDerivative.h>
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23 | #include <cvmatrix.h>
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24 | #include <GridLayout.h>
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25 | #include <DataPlot1D.h>
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26 | #include <Tab.h>
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27 | #include <TabWidget.h>
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28 | #include <GroupBox.h>
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29 | #include <DoubleSpinBox.h>
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30 | #include <PushButton.h>
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31 | #include <FrameworkManager.h>
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32 | #include <MetaDualShock3.h>
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33 | #include <Vector2D.h>
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34 | #include <AhrsData.h>
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35 | #include <Ahrs.h>
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36 | #include <Pid.h>
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37 |
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38 | #include <stdio.h>
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39 |
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40 | using namespace std;
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41 | using namespace flair::core;
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42 | using namespace flair::gui;
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43 | using namespace flair::filter;
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44 | using namespace flair::meta;
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45 | using namespace flair::sensor;
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46 |
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47 | DemoOpticalFlow::DemoOpticalFlow(TargetController *controller): UavStateMachine(controller) {
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48 | Uav* uav=GetUav();
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49 | if (uav->GetVerticalCamera() == NULL) {
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50 | Err("no vertical camera found\n");
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51 | exit(1);
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52 | }
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53 |
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54 | startOpticalflow=new PushButton(GetButtonsLayout()->NewRow(),"start optical flow");
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55 |
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56 | greyCameraImage=new CvtColor(uav->GetVerticalCamera(),"gray",CvtColor::Conversion_t::ToGray);
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57 |
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58 | uav->GetVerticalCamera()->UseDefaultPlot(greyCameraImage->Output()); // Le defaultPlot de la caméra peut afficher n'importe quoi?
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59 |
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60 | //optical flow stack
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61 | //opticalFlow= matrice de déplacements en pixels entre 2 images consécutives
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62 | opticalFlow=new OpticalFlow(greyCameraImage,uav->GetVerticalCamera()->GetLayout()->NewRow(),"flux optique");
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63 | opticalFlowCompensated=new OpticalFlowCompensated(opticalFlow,uav->GetAhrs(),uav->GetVerticalCamera()->GetLayout()->NewRow(),"flux optique compense");
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64 | opticalFlowSpeedRaw=new OpticalFlowSpeed(opticalFlowCompensated,"vitesse du flux optique");
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65 | //opticalFlowSpeed=vitesse de déplacement en pixels par seconde (moyenne sur tous les points et division par le delta T)
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66 | cvmatrix* twoByOneOFS=new cvmatrix((const Thread*)this,2,1,floatType);
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67 | cvmatrix* twoByOneOFAR=new cvmatrix((const Thread*)this,2,1,floatType);
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68 | cvmatrix* twoByOneOFA=new cvmatrix((const Thread*)this,2,1,floatType);
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69 | opticalFlowSpeed=new LowPassFilter(opticalFlowSpeedRaw,uav->GetVerticalCamera()->GetLayout()->NewRow(),"Speed lowPass",twoByOneOFS);
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70 | opticalFlowAccelerationRaw=new EulerDerivative(opticalFlowSpeed,uav->GetVerticalCamera()->GetLayout()->NewRow(),"derivative",twoByOneOFAR);
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71 | opticalFlowAcceleration=new LowPassFilter(opticalFlowAccelerationRaw,uav->GetVerticalCamera()->GetLayout()->NewRow(),"Acceleration lowPass",twoByOneOFA);
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72 |
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73 | getFrameworkManager()->AddDeviceToLog(opticalFlowSpeedRaw);
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74 |
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75 | Tab* opticalFlowTab=new Tab(getFrameworkManager()->GetTabWidget(),"flux optique");
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76 | DataPlot1D* xVelocityPlot=new DataPlot1D(opticalFlowTab->NewRow(),"x speed (px/s)",-250,250);
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77 | DataPlot1D* yVelocityPlot=new DataPlot1D(opticalFlowTab->LastRowLastCol(),"y speed (px/s)",-250,250);
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78 | DataPlot1D* xFirstPointPlot=new DataPlot1D(opticalFlowTab->NewRow(),"x movement first point",-25,25);
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79 | DataPlot1D* yFirstPointPlot=new DataPlot1D(opticalFlowTab->LastRowLastCol(),"y movement first point",-25,25);
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80 | // DataPlot1D* xAccelerationPlot=new DataPlot1D(opticalFlowTab->NewRow(),"x_acceleration",-250,250);
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81 | // DataPlot1D* yAccelerationPlot=new DataPlot1D(opticalFlowTab->LastRowLastCol(),"y_acceleration",-250,250);
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82 |
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83 | xVelocityPlot->AddCurve(opticalFlowSpeedRaw->Output()->Element(0,0));
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84 | xVelocityPlot->AddCurve(opticalFlowSpeed->Matrix()->Element(0,0),DataPlot::Blue);
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85 | yVelocityPlot->AddCurve(opticalFlowSpeedRaw->Output()->Element(1,0));
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86 | yVelocityPlot->AddCurve(opticalFlowSpeed->Matrix()->Element(1,0),DataPlot::Blue);
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87 | xFirstPointPlot->AddCurve(opticalFlowCompensated->GetFirstPointDisplacement()->Element(0,0));
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88 | xFirstPointPlot->AddCurve(opticalFlowCompensated->GetFirstPointDisplacement()->Element(1,0),DataPlot::Blue);
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89 | xFirstPointPlot->AddCurve(opticalFlowCompensated->GetFirstPointDisplacement()->Element(2,0),DataPlot::Green);
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90 | yFirstPointPlot->AddCurve(opticalFlowCompensated->GetFirstPointDisplacement()->Element(0,1));
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91 | yFirstPointPlot->AddCurve(opticalFlowCompensated->GetFirstPointDisplacement()->Element(1,1),DataPlot::Blue);
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92 | yFirstPointPlot->AddCurve(opticalFlowCompensated->GetFirstPointDisplacement()->Element(2,1),DataPlot::Green);
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93 | // xAccelerationPlot->AddCurve(opticalFlowAccelerationRaw->Matrix()->Element(0,0));
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94 | // xAccelerationPlot->AddCurve(opticalFlowAcceleration->Matrix()->Element(0,0),DataPlot::Blue);
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95 | // yAccelerationPlot->AddCurve(opticalFlowAccelerationRaw->Matrix()->Element(1,0));
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96 | // yAccelerationPlot->AddCurve(opticalFlowAcceleration->Matrix()->Element(1,0),DataPlot::Blue);
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97 |
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98 | u_x=new Pid(setupLawTab->At(1,0),"u_x");
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99 | u_x->UseDefaultPlot(graphLawTab->NewRow());
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100 | u_y=new Pid(setupLawTab->At(1,1),"u_y");
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101 | u_y->UseDefaultPlot(graphLawTab->LastRowLastCol());
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102 |
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103 | opticalFlowGroupBox=new GroupBox(GetJoystick()->GetTab()->NewRow(),"consignes fo");
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104 | maxXSpeed=new DoubleSpinBox(opticalFlowGroupBox->NewRow(),"debattement x"," m/s",-5,5,0.1,1);
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105 | maxYSpeed=new DoubleSpinBox(opticalFlowGroupBox->LastRowLastCol(),"debattement y"," m/s",-5,5,0.1,1);
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106 |
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107 | Tab* opticalFlowRealTab=new Tab(getFrameworkManager()->GetTabWidget(),"real speed");
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108 | opticalFlowRealSpeed=new cvmatrix((const Thread*)this,2,1,floatType);
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109 | opticalFlowReference=new cvmatrix((const Thread*)this,2,1,floatType);
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110 | opticalFlowRealAcceleration=new cvmatrix((const Thread*)this,2,1,floatType);
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111 | DataPlot1D* xRealVelocityPlot=new DataPlot1D(opticalFlowRealTab->NewRow(),"x speed (m/s)",-2,2);
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112 | DataPlot1D* yRealVelocityPlot=new DataPlot1D(opticalFlowRealTab->LastRowLastCol(),"y speed (m/s)",-2,2);
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113 | DataPlot1D* xRealAccelerationPlot=new DataPlot1D(opticalFlowRealTab->NewRow(),"x acceleration (m/s2)",-2,2);
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114 | DataPlot1D* yRealAccelerationPlot=new DataPlot1D(opticalFlowRealTab->LastRowLastCol(),"y acceleration (m/s2)",-2,2);
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115 | xRealVelocityPlot->AddCurve(opticalFlowRealSpeed->Element(0));
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116 | xRealVelocityPlot->AddCurve(opticalFlowReference->Element(0),DataPlot::Blue,"consigne");
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117 | yRealVelocityPlot->AddCurve(opticalFlowRealSpeed->Element(1));
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118 | yRealVelocityPlot->AddCurve(opticalFlowReference->Element(1),DataPlot::Blue,"consigne");
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119 | xRealAccelerationPlot->AddCurve(opticalFlowRealAcceleration->Element(0));
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120 | yRealAccelerationPlot->AddCurve(opticalFlowRealAcceleration->Element(1));
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121 |
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122 | customReferenceOrientation= new AhrsData(this,"reference");
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123 | uav->GetAhrs()->AddPlot(customReferenceOrientation,DataPlot::Yellow);
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124 | AddDataToControlLawLog(customReferenceOrientation);
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125 | }
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126 |
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127 | void DemoOpticalFlow::SignalEvent(Event_t event) {
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128 | switch(event) {
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129 | case Event_t::EnteringControlLoop:
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130 | opticalFlowReference->SetValue(0,0,GetJoystick()->GetAxisValue(1)*maxXSpeed->Value());//joy axis 0 maps to x displacement
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131 | opticalFlowReference->SetValue(1,0,GetJoystick()->GetAxisValue(0)*maxYSpeed->Value());//joy axis 1 maps to y displacement
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132 | float focal=271.76;
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133 | float z,dz;
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134 | AltitudeValues(z, dz);
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135 | float scale=z/focal;
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136 | opticalFlowRealSpeed->SetValue(0,0,opticalFlowSpeed->Output(0,0)*scale);
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137 | opticalFlowRealSpeed->SetValue(1,0,opticalFlowSpeed->Output(1,0)*scale);
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138 | opticalFlowRealAcceleration->SetValue(0,0,opticalFlowAcceleration->Output(0,0)*scale);
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139 | opticalFlowRealAcceleration->SetValue(1,0,opticalFlowAcceleration->Output(1,0)*scale);
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140 | break;
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141 | }
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142 | }
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143 |
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144 | void DemoOpticalFlow::StartOpticalFlow(void) {
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145 | if (SetOrientationMode(OrientationMode_t::Custom)) {
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146 | Thread::Info("(Re)entering optical flow mode\n");
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147 | u_x->Reset();
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148 | u_y->Reset();
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149 | } else {
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150 | Thread::Warn("Could not enter optical flow mode\n");
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151 | }
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152 | }
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153 |
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154 | void DemoOpticalFlow::ExtraCheckPushButton(void) {
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155 | if(startOpticalflow->Clicked()) {
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156 | StartOpticalFlow();
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157 | }
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158 | }
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159 |
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160 | void DemoOpticalFlow::ExtraCheckJoystick(void) {
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161 | static bool wasOpticalFlowModeButtonPressed=false;
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162 | // controller button R1 enters optical flow mode
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163 | if(GetJoystick()->IsButtonPressed(9)) { // R1
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164 | if (!wasOpticalFlowModeButtonPressed) {
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165 | wasOpticalFlowModeButtonPressed=true;
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166 | StartOpticalFlow();
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167 | }
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168 | } else {
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169 | wasOpticalFlowModeButtonPressed=false;
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170 | }
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171 | }
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172 |
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173 | const AhrsData *DemoOpticalFlow::GetReferenceOrientation(void) {
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174 | Euler refAngles=GetDefaultReferenceOrientation()->GetQuaternion().ToEuler();//to keep default yaw reference
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175 |
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176 | // /!\ in this demo, the target value is a speed (in m/s). As a consequence the error is the difference between the current speed and the target speed
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177 | Vector2D error, errorVariation; // in Uav coordinate system
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178 |
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179 | error.x=opticalFlowRealSpeed->Value(0,0)-opticalFlowReference->Value(0,0);
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180 | error.y=opticalFlowRealSpeed->Value(1,0)-opticalFlowReference->Value(1,0);
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181 | errorVariation.x=opticalFlowRealAcceleration->Value(0,0);
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182 | errorVariation.y=opticalFlowRealAcceleration->Value(1,0);
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183 | //Printf("Altitude=%f, Error=(%f,%f)\n",z,error.x,error.y);
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184 |
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185 | u_x->SetValues(error.x, errorVariation.x);
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186 | u_x->Update(GetTime());
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187 | refAngles.pitch=u_x->Output();
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188 |
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189 | u_y->SetValues(error.y, errorVariation.y);
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190 | u_y->Update(GetTime());
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191 | refAngles.roll=-u_y->Output();
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192 |
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193 | customReferenceOrientation->SetQuaternionAndAngularRates(refAngles.ToQuaternion(),Vector3D(0,0,0));
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194 |
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195 | return customReferenceOrientation;
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196 | }
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197 |
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198 | DemoOpticalFlow::~DemoOpticalFlow() {
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199 | }
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