Changeset 155 in flair-src for trunk/demos
- Timestamp:
- Mar 3, 2017, 12:26:05 PM (8 years ago)
- Location:
- trunk/demos/OpticalFlow/uav/src
- Files:
-
- 2 edited
Legend:
- Unmodified
- Added
- Removed
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trunk/demos/OpticalFlow/uav/src/DemoOpticalFlow.cpp
r154 r155 17 17 #include <CvtColor.h> 18 18 #include <OpticalFlow.h> 19 #include <OpticalFlowCompensated.h> 19 20 #include <OpticalFlowSpeed.h> 20 21 #include <LowPassFilter.h> … … 60 61 //opticalFlow= matrice de déplacements en pixels entre 2 images consécutives 61 62 opticalFlow=new OpticalFlow(greyCameraImage,uav->GetVerticalCamera()->GetLayout()->NewRow(),"flux optique"); 62 opticalFlowSpeedRaw=new OpticalFlowSpeed(opticalFlow,"vitesse du flux optique"); 63 opticalFlowCompensated=new OpticalFlowCompensated(opticalFlow,uav->GetAhrs(),"flux optique compensé"); 64 opticalFlowSpeedRaw=new OpticalFlowSpeed(opticalFlowCompensated,"vitesse du flux optique"); 63 65 //opticalFlowSpeed=vitesse de déplacement en pixels par seconde (moyenne sur tous les points et division par le delta T) 64 cvmatrix* twoByOne=new cvmatrix((const Thread*)this,2,1,floatType); 65 opticalFlowSpeed=new LowPassFilter(opticalFlowSpeedRaw,uav->GetVerticalCamera()->GetLayout()->NewRow(),"Speed lowPass",twoByOne); 66 opticalFlowAccelerationRaw=new EulerDerivative(opticalFlowSpeed,uav->GetVerticalCamera()->GetLayout()->NewRow(),"derivative",twoByOne); 67 opticalFlowAcceleration=new LowPassFilter(opticalFlowAccelerationRaw,uav->GetVerticalCamera()->GetLayout()->NewRow(),"Acceleration lowPass",twoByOne); 68 delete twoByOne; 66 cvmatrix* twoByOneOFS=new cvmatrix((const Thread*)this,2,1,floatType); 67 cvmatrix* twoByOneOFAR=new cvmatrix((const Thread*)this,2,1,floatType); 68 cvmatrix* twoByOneOFA=new cvmatrix((const Thread*)this,2,1,floatType); 69 opticalFlowSpeed=new LowPassFilter(opticalFlowSpeedRaw,uav->GetVerticalCamera()->GetLayout()->NewRow(),"Speed lowPass",twoByOneOFS); 70 opticalFlowAccelerationRaw=new EulerDerivative(opticalFlowSpeed,uav->GetVerticalCamera()->GetLayout()->NewRow(),"derivative",twoByOneOFAR); 71 opticalFlowAcceleration=new LowPassFilter(opticalFlowAccelerationRaw,uav->GetVerticalCamera()->GetLayout()->NewRow(),"Acceleration lowPass",twoByOneOFA); 69 72 70 73 getFrameworkManager()->AddDeviceToLog(opticalFlowSpeedRaw); 71 74 72 Tab* opticalFlowTab=new Tab(getFrameworkManager()->GetTabWidget(),"flux optique"); 73 DataPlot1D* xVelocityPlot=new DataPlot1D(opticalFlowTab->NewRow(),"x speed (px/s)",-250,250); 74 DataPlot1D* yVelocityPlot=new DataPlot1D(opticalFlowTab->LastRowLastCol(),"y speed (px/s)",-250,250); 75 DataPlot1D* xAccelerationPlot=new DataPlot1D(opticalFlowTab->NewRow(),"x_acceleration",-250,250); 76 DataPlot1D* yAccelerationPlot=new DataPlot1D(opticalFlowTab->LastRowLastCol(),"y_acceleration",-250,250); 75 Tab* opticalFlowTab=new Tab(getFrameworkManager()->GetTabWidget(),"flux optique"); 76 DataPlot1D* xVelocityPlot=new DataPlot1D(opticalFlowTab->NewRow(),"x speed (px/s)",-250,250); 77 DataPlot1D* yVelocityPlot=new DataPlot1D(opticalFlowTab->LastRowLastCol(),"y speed (px/s)",-250,250); 78 DataPlot1D* xFirstPointPlot=new DataPlot1D(opticalFlowTab->NewRow(),"x movement first point",-25,25); 79 DataPlot1D* yFirstPointPlot=new DataPlot1D(opticalFlowTab->LastRowLastCol(),"y movement first point",-25,25); 80 // DataPlot1D* xAccelerationPlot=new DataPlot1D(opticalFlowTab->NewRow(),"x_acceleration",-250,250); 81 // DataPlot1D* yAccelerationPlot=new DataPlot1D(opticalFlowTab->LastRowLastCol(),"y_acceleration",-250,250); 77 82 78 xVelocityPlot->AddCurve(opticalFlowSpeedRaw->Output()->Element(0,0)); 79 xVelocityPlot->AddCurve(opticalFlowSpeed->Matrix()->Element(0,0),DataPlot::Blue); 80 yVelocityPlot->AddCurve(opticalFlowSpeedRaw->Output()->Element(1,0)); 81 yVelocityPlot->AddCurve(opticalFlowSpeed->Matrix()->Element(1,0),DataPlot::Blue); 82 xAccelerationPlot->AddCurve(opticalFlowAccelerationRaw->Matrix()->Element(0,0)); 83 xAccelerationPlot->AddCurve(opticalFlowAcceleration->Matrix()->Element(0,0),DataPlot::Blue); 84 yAccelerationPlot->AddCurve(opticalFlowAccelerationRaw->Matrix()->Element(1,0)); 85 yAccelerationPlot->AddCurve(opticalFlowAcceleration->Matrix()->Element(1,0),DataPlot::Blue); 83 xVelocityPlot->AddCurve(opticalFlowSpeedRaw->Output()->Element(0,0)); 84 xVelocityPlot->AddCurve(opticalFlowSpeed->Matrix()->Element(0,0),DataPlot::Blue); 85 yVelocityPlot->AddCurve(opticalFlowSpeedRaw->Output()->Element(1,0)); 86 yVelocityPlot->AddCurve(opticalFlowSpeed->Matrix()->Element(1,0),DataPlot::Blue); 87 xFirstPointPlot->AddCurve(opticalFlowCompensated->GetFirstPointDisplacement()->Element(0,0)); 88 xFirstPointPlot->AddCurve(opticalFlowCompensated->GetFirstPointDisplacement()->Element(1,0),DataPlot::Blue); 89 xFirstPointPlot->AddCurve(opticalFlowCompensated->GetFirstPointDisplacement()->Element(2,0),DataPlot::Green); 90 // xAccelerationPlot->AddCurve(opticalFlowAccelerationRaw->Matrix()->Element(0,0)); 91 // xAccelerationPlot->AddCurve(opticalFlowAcceleration->Matrix()->Element(0,0),DataPlot::Blue); 92 // yAccelerationPlot->AddCurve(opticalFlowAccelerationRaw->Matrix()->Element(1,0)); 93 // yAccelerationPlot->AddCurve(opticalFlowAcceleration->Matrix()->Element(1,0),DataPlot::Blue); 86 94 87 88 89 90 95 u_x=new Pid(setupLawTab->At(1,0),"u_x"); 96 u_x->UseDefaultPlot(graphLawTab->NewRow()); 97 u_y=new Pid(setupLawTab->At(1,1),"u_y"); 98 u_y->UseDefaultPlot(graphLawTab->LastRowLastCol()); 91 99 92 93 94 100 opticalFlowGroupBox=new GroupBox(GetJoystick()->GetTab()->NewRow(),"consignes fo"); 101 maxXSpeed=new DoubleSpinBox(opticalFlowGroupBox->NewRow(),"debattement x"," m/s",-5,5,0.1,1); 102 maxYSpeed=new DoubleSpinBox(opticalFlowGroupBox->LastRowLastCol(),"debattement y"," m/s",-5,5,0.1,1); 95 103 96 104 Tab* opticalFlowRealTab=new Tab(getFrameworkManager()->GetTabWidget(),"real speed"); … … 99 107 opticalFlowRealAcceleration=new cvmatrix((const Thread*)this,2,1,floatType); 100 108 DataPlot1D* xRealVelocityPlot=new DataPlot1D(opticalFlowRealTab->NewRow(),"x speed (m/s)",-2,2); 101 109 DataPlot1D* yRealVelocityPlot=new DataPlot1D(opticalFlowRealTab->LastRowLastCol(),"y speed (m/s)",-2,2); 102 110 DataPlot1D* xRealAccelerationPlot=new DataPlot1D(opticalFlowRealTab->NewRow(),"x acceleration (m/s2)",-2,2); 103 111 DataPlot1D* yRealAccelerationPlot=new DataPlot1D(opticalFlowRealTab->LastRowLastCol(),"y acceleration (m/s2)",-2,2); 104 112 xRealVelocityPlot->AddCurve(opticalFlowRealSpeed->Element(0)); 105 106 113 xRealVelocityPlot->AddCurve(opticalFlowReference->Element(0),DataPlot::Blue,"consigne"); 114 yRealVelocityPlot->AddCurve(opticalFlowRealSpeed->Element(1)); 107 115 yRealVelocityPlot->AddCurve(opticalFlowReference->Element(1),DataPlot::Blue,"consigne"); 108 116 xRealAccelerationPlot->AddCurve(opticalFlowRealAcceleration->Element(0)); 109 117 yRealAccelerationPlot->AddCurve(opticalFlowRealAcceleration->Element(1)); 110 118 111 112 113 119 customReferenceOrientation= new AhrsData(this,"reference"); 120 uav->GetAhrs()->AddPlot(customReferenceOrientation,DataPlot::Yellow); 121 AddDataToControlLawLog(customReferenceOrientation); 114 122 } 115 123 -
trunk/demos/OpticalFlow/uav/src/DemoOpticalFlow.h
r154 r155 29 29 namespace filter { 30 30 class OpticalFlow; 31 class OpticalFlowCompensated; 31 32 class OpticalFlowSpeed; 32 33 class LowPassFilter; … … 48 49 void SignalEvent(Event_t event); 49 50 void ExtraCheckJoystick(void); 50 51 void ExtraCheckPushButton(void); 51 52 const flair::core::AhrsData *GetReferenceOrientation(void); 52 53 … … 62 63 private: 63 64 flair::filter::OpticalFlow *opticalFlow; 65 flair::filter::OpticalFlowCompensated *opticalFlowCompensated; 64 66 flair::filter::OpticalFlowSpeed *opticalFlowSpeedRaw; 65 67 flair::filter::EulerDerivative *opticalFlowAccelerationRaw; 66 67 68 flair::gui::PushButton *startOpticalflow,*stopOpticalflow; 69 void StartOpticalFlow(void); 68 70 flair::core::cvmatrix *opticalFlowRealSpeed,*opticalFlowRealAcceleration; 69 71 };
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