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drone_cont
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1 changed files with 80 additions and 14 deletions
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@ -3,6 +3,7 @@
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#include <cv_bridge/cv_bridge.h>
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#include <cv_bridge/cv_bridge.h>
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#include <sensor_msgs/image_encodings.h>
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#include <sensor_msgs/image_encodings.h>
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#include <geometry_msgs/Twist.h>
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#include <geometry_msgs/Twist.h>
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#include <typeinfo>
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#include <opencv/cv.h>
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#include <opencv/cv.h>
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@ -13,8 +14,10 @@ using namespace std;
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class Traite_image {
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class Traite_image {
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public:
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public:
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const static int SENSITIVITY_VALUE = 40;
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const static int THRESHOLD_DETECT_SENSITIVITY = 10;
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const static int BLUR_SIZE = 10;
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const static int BLUR_SIZE = 5;
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const static int THRESHOLD_MOV = 5;
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const static int crop_ratio = 8;
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Mat prev;
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Mat prev;
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@ -33,10 +36,22 @@ class Traite_image {
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image_transport::Subscriber sub;
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image_transport::Subscriber sub;
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Traite_image() : n("~"),it(n) {
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Traite_image(bool sim) : n("~"),it(n) {
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pub_img = it.advertise("/image_out", 1);
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String img_out, cmd_out, img_in;
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pub_cmd = n.advertise<geometry_msgs::Twist>("/vrep/drone/cmd_vel", 1);
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if (!sim) {
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sub = it.subscribe("/usb_cam/image_raw", 1, [this](const sensor_msgs::ImageConstPtr& img) -> void { this->on_image(img);},ros::VoidPtr(),image_transport::TransportHints("compressed"));
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img_out = "/image_out";
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cmd_out = "/bebop/cmd_vel";
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img_in = "/bebop/image_raw";
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}
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else
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{
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img_out = "/image_out";
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cmd_out = "/vrep/drone/cmd_vel";
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img_in = "/usb_cam/image_raw";
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}
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pub_img = it.advertise(img_out, 1);
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pub_cmd = n.advertise<geometry_msgs::Twist>(cmd_out, 1);
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sub = it.subscribe(img_in, 1, [this](const sensor_msgs::ImageConstPtr& img) -> void { this->on_image(img);},ros::VoidPtr(),image_transport::TransportHints("compressed"));
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}
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}
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@ -67,7 +82,6 @@ class Traite_image {
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Mat next_stab;
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Mat next_stab;
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stabiliseImg(prev, next, next_stab);
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stabiliseImg(prev, next, next_stab);
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int crop_ratio = 6;
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float crop_x = next_stab.size().width/crop_ratio;
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float crop_x = next_stab.size().width/crop_ratio;
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float crop_y = next_stab.size().height/crop_ratio;
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float crop_y = next_stab.size().height/crop_ratio;
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float crop_w = next_stab.size().width*(1-2.0/crop_ratio);
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float crop_w = next_stab.size().width*(1-2.0/crop_ratio);
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@ -75,7 +89,7 @@ class Traite_image {
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Rect myROI(crop_x, crop_y, crop_w, crop_h);
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Rect myROI(crop_x, crop_y, crop_w, crop_h);
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Mat next_stab_cropped = next_stab(myROI);
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Mat next_stab_cropped = next_stab(myROI);
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Mat prev_cropped = prev(myROI);
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Mat prev_cropped = prev(myROI);
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searchForMovement(prev_cropped, next_stab_cropped, output);
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searchForMovementOptFlow(prev_cropped, next_stab_cropped, output);
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pub_img.publish(cv_bridge::CvImage(msg->header, "rgb8", output).toImageMsg());
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pub_img.publish(cv_bridge::CvImage(msg->header, "rgb8", output).toImageMsg());
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@ -142,10 +156,10 @@ class Traite_image {
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// Subtract the 2 last frames and threshold them
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// Subtract the 2 last frames and threshold them
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Mat thres;
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Mat thres;
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absdiff(prev_grey,cur_grey,thres);
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absdiff(prev_grey,cur_grey,thres);
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threshold(thres, thres, SENSITIVITY_VALUE, 255, THRESH_BINARY);
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threshold(thres, thres, THRESHOLD_DETECT_SENSITIVITY, 255, THRESH_BINARY);
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// Blur to eliminate noise
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// Blur to eliminate noise
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blur(thres, thres, Size(BLUR_SIZE, BLUR_SIZE));
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blur(thres, thres, Size(BLUR_SIZE, BLUR_SIZE));
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threshold(thres, thres, SENSITIVITY_VALUE, 255, THRESH_BINARY);
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threshold(thres, thres, THRESHOLD_DETECT_SENSITIVITY, 255, THRESH_BINARY);
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//notice how we use the '&' operator for objectDetected and output. This is because we wish
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//notice how we use the '&' operator for objectDetected and output. This is because we wish
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//to take the values passed into the function and manipulate them, rather than just working with a copy.
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//to take the values passed into the function and manipulate them, rather than just working with a copy.
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@ -186,6 +200,57 @@ class Traite_image {
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putText(output,"Tracking object at (" + intToString(x)+","+intToString(y)+")",Point(x,y),1,1,Scalar(255,0,0),2);
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putText(output,"Tracking object at (" + intToString(x)+","+intToString(y)+")",Point(x,y),1,1,Scalar(255,0,0),2);
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}
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}
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void searchForMovementOptFlow(Mat prev, Mat cur, Mat &output){
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Mat cur_grey, prev_grey;
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cur.copyTo(output);
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cvtColor(prev, prev_grey, COLOR_BGR2GRAY);
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cvtColor(cur, cur_grey, COLOR_BGR2GRAY);
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Mat flow;
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calcOpticalFlowFarneback(prev_grey, cur_grey, flow, 0.5, 3, 15, 3, 5, 1.2, 0);
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vector<Mat> flow_coord(2);
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Mat flow_norm, angle;
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split(flow, flow_coord);
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cartToPolar(flow_coord[0], flow_coord[1], flow_norm, angle);
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//threshold(flow_norm, flow_norm, THRESHOLD_DETECT_SENSITIVITY, 255, THRESH_BINARY);
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// Blur to eliminate noise
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blur(flow_norm, flow_norm, Size(BLUR_SIZE, BLUR_SIZE));
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threshold(flow_norm, flow_norm, THRESHOLD_DETECT_SENSITIVITY, 255, THRESH_BINARY);
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flow_norm.convertTo(flow_norm, CV_8U);
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Mat temp;
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flow_norm.copyTo(temp);
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//these two vectors needed for output of findContours
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vector< vector<Point> > contours;
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vector<Vec4i> hierarchy;
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//find contours of filtered image using openCV findContours function
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//findContours(temp,contours,hierarchy,CV_RETR_CCOMP,CV_CHAIN_APPROX_SIMPLE );// retrieves all contours
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findContours(temp,contours,hierarchy,CV_RETR_EXTERNAL,CV_CHAIN_APPROX_SIMPLE );// retrieves external contours
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if(contours.size()>0){ //if contours vector is not empty, we have found some objects
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//the largest contour is found at the end of the contours vector
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//we will simply assume that the biggest contour is the object we are looking for.
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vector< vector<Point> > largestContourVec;
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largestContourVec.push_back(contours.at(contours.size()-1));
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//make a bounding rectangle around the largest contour then find its centroid
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//this will be the object's final estimated position.
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objectBoundingRectangle = boundingRect(largestContourVec.at(0));
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}
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//make some temp x and y variables so we dont have to type out so much
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int x = objectBoundingRectangle.x;
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int y = objectBoundingRectangle.y;
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int width = objectBoundingRectangle.width;
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int height = objectBoundingRectangle.height;
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//draw a rectangle around the object
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rectangle(output, Point(x,y), Point(x+width, y+height), Scalar(0, 255, 0), 2);
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//write the position of the object to the screen
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putText(output,"Tracking object at (" + intToString(x)+","+intToString(y)+")",Point(x,y),1,1,Scalar(255,0,0),2);
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}
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inline bool isFlowCorrect(Point2f u)
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inline bool isFlowCorrect(Point2f u)
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{
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{
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return !cvIsNaN(u.x) && !cvIsNaN(u.y) && fabs(u.x) < 1e9 && fabs(u.y) < 1e9;
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return !cvIsNaN(u.x) && !cvIsNaN(u.y) && fabs(u.x) < 1e9 && fabs(u.y) < 1e9;
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@ -199,11 +264,11 @@ class Traite_image {
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geometry_msgs::Twist twist = geometry_msgs::Twist();
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geometry_msgs::Twist twist = geometry_msgs::Twist();
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if(centre_rect.x < centre_image.x)
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if(centre_rect.x < centre_image.x-THRESHOLD_MOV)
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{
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{
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twist.angular.z = 0.2;
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twist.angular.z = 0.2;
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}
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}
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else if(centre_rect.x > centre_image.x)
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else if(centre_rect.x > centre_image.x+THRESHOLD_MOV)
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{
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{
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twist.angular.z = -0.2;
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twist.angular.z = -0.2;
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}
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}
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@ -215,8 +280,9 @@ class Traite_image {
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int main(int argc, char **argv)
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int main(int argc, char **argv)
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{
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{
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ros::init(argc, argv, "test_opencv");
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ros::init(argc, argv, "Papillon");
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Traite_image dataset=Traite_image();
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bool sim = false;
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Traite_image dataset=Traite_image(sim);
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ros::spin();
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ros::spin();
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return 0;
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return 0;
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