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Fix recursive stabilisation

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lhark 2016-06-07 12:56:04 +02:00
parent 90f55e89cd
commit 40f52fbf03
1 changed files with 38 additions and 24 deletions
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62
src/papillon.cpp
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@ -17,7 +17,7 @@ class Traite_image {
const static int THRESHOLD_DETECT_SENSITIVITY = 10; const static int THRESHOLD_DETECT_SENSITIVITY = 10;
const static int BLUR_SIZE = 5; const static int BLUR_SIZE = 5;
const static int THRESHOLD_MOV = 5; const static int THRESHOLD_MOV = 5;
constexpr static float MOVEMENT_THRES = 0.1; constexpr static float MOVEMENT_THRES = 0.05;
constexpr static float FLOW_MIN_QUAL = 0.01; constexpr static float FLOW_MIN_QUAL = 0.01;
const static int FLOW_MIN_DIST = 20; const static int FLOW_MIN_DIST = 20;
@ -80,10 +80,12 @@ class Traite_image {
} }
Mat next_stab; Mat next_stab;
stabiliseImg(prev, next, next_stab); trackFeatures(prev, next);
stabiliseImg(next, next_stab);
trackingOptFlow(prev, next_stab, next_stab); trackingOptFlow(prev, next_stab, next_stab);
Mat next_stab2; Mat next_stab2;
stabiliseImg(prev, next, next_stab2); trackFeatures(prev, next);
stabiliseImg(next, next_stab2);
trackingOptFlow(prev, next_stab2, output); trackingOptFlow(prev, next_stab2, output);
//searchForMovementOptFlow(prev_cropped, next_stab_cropped, output); //searchForMovementOptFlow(prev_cropped, next_stab_cropped, output);
@ -98,23 +100,14 @@ class Traite_image {
prev = next.clone(); prev = next.clone();
} }
//int to string helper function
string intToString(int number){
//this function has a number input and string output void trackFeatures(Mat prev, Mat cur) {
std::stringstream ss;
ss << number;
return ss.str();
}
void stabiliseImg(Mat prev, Mat cur, Mat &output){
Mat cur_grey, prev_grey; Mat cur_grey, prev_grey;
cvtColor(cur, cur_grey, COLOR_BGR2GRAY); cvtColor(cur, cur_grey, COLOR_BGR2GRAY);
cvtColor(prev, prev_grey, COLOR_BGR2GRAY); cvtColor(prev, prev_grey, COLOR_BGR2GRAY);
// vector from prev to cur // vector from prev to cur
vector <Point2f> prev_corner, cur_corner; vector <Point2f> prev_corner, cur_corner;
vector <Point2f> prev_corner2, cur_corner2;
vector <uchar> status; vector <uchar> status;
vector <float> err; vector <float> err;
@ -122,15 +115,18 @@ class Traite_image {
calcOpticalFlowPyrLK(prev_grey, cur_grey, prev_corner, cur_corner, status, err); calcOpticalFlowPyrLK(prev_grey, cur_grey, prev_corner, cur_corner, status, err);
// weed out bad matches // weed out bad matches
prev_ftr.clear(); prev_ftr.resize(0);
cur_ftr.clear(); cur_ftr.resize(0);
for(size_t i=0; i < status.size(); i++) { for(size_t i=0; i < status.size(); i++) {
if(status[i]) { if(status[i]) {
prev_ftr.push_back(prev_corner[i]); prev_ftr.push_back(prev_corner[i]);
cur_ftr.push_back(cur_corner[i]); cur_ftr.push_back(cur_corner[i]);
} }
} }
}
void stabiliseImg(Mat cur, Mat &output){
T = estimateRigidTransform(prev_ftr, cur_ftr, true); // false = rigid transform, no scaling/shearing T = estimateRigidTransform(prev_ftr, cur_ftr, true); // false = rigid transform, no scaling/shearing
if(T.data == NULL) if(T.data == NULL)
@ -145,9 +141,11 @@ class Traite_image {
cur2.copyTo(output); cur2.copyTo(output);
} }
void warpPoints(vector<Point2f> p, vector<Point2f> &p_warp, Mat T, bool invert=false) { void warpPoints(vector<Point2f> p, vector<Point2f> &p_warp, Mat T, bool invert=false) {
Mat H;
if(invert) if(invert)
invertAffineTransform(T, T); invertAffineTransform(T, H);
p_warp.clear(); p_warp.clear();
for(size_t i=0; i < p.size(); ++i) { for(size_t i=0; i < p.size(); ++i) {
@ -157,29 +155,34 @@ class Traite_image {
src.at<double>(1,0)=p[i].y; src.at<double>(1,0)=p[i].y;
src.at<double>(2,0)=1.0; src.at<double>(2,0)=1.0;
Mat dst = T*src; //USE MATRIX ALGEBRA Mat dst = H*src; //USE MATRIX ALGEBRA
p_warp.push_back(Point2f(dst.at<double>(0,0),dst.at<double>(1,0))); p_warp.push_back(Point2f(dst.at<double>(0,0),dst.at<double>(1,0)));
} }
} }
void trackingOptFlow(Mat prev, Mat cur, Mat &output) { void trackingOptFlow(Mat prev, Mat cur, Mat &output) {
cur.copyTo(output); cur.copyTo(output);
vector <Point2f> cur_ftr_stab; vector <Point2f> cur_ftr_stab;
Mat T = estimateRigidTransform(prev_ftr, cur_ftr, true); // false = rigid transform, no scaling/shearing //T = estimateRigidTransform(prev_ftr, cur_ftr, true); // false = rigid transform, no scaling/shearing
if(T.data == NULL) //if(T.data == NULL)
last_T.copyTo(T); // last_T.copyTo(T);
else //else
T.copyTo(last_T); // T.copyTo(last_T);
warpPoints(cur_ftr, cur_ftr_stab, T, true); warpPoints(cur_ftr, cur_ftr_stab, T, true);
vector <Point2f> objects; vector <Point2f> objects;
vector <float> flow_norm;
for(size_t i=0; i < prev_ftr.size(); ++i) { for(size_t i=0; i < prev_ftr.size(); ++i) {
float flow_norm = norm(prev_ftr[i] - cur_ftr_stab[i]) / prev.size().height; flow_norm.push_back(norm(prev_ftr[i] - cur_ftr_stab[i]) / prev.size().height);
line(output, prev_ftr[i], cur_ftr[i], Scalar(200,0,0),1); line(output, prev_ftr[i], cur_ftr[i], Scalar(200,0,0),1);
line(output, prev_ftr[i], cur_ftr_stab[i], Scalar(0,200,0),1); line(output, prev_ftr[i], cur_ftr_stab[i], Scalar(0,200,0),1);
if(flow_norm > MOVEMENT_THRES) { }
for(size_t i=0; i < flow_norm.size(); ++i) {
if(flow_norm[i] > MOVEMENT_THRES) {
objects.push_back(cur_ftr_stab[i]); objects.push_back(cur_ftr_stab[i]);
prev_ftr.erase(prev_ftr.begin() + i); prev_ftr.erase(prev_ftr.begin() + i);
cur_ftr.erase(cur_ftr.begin() + i); cur_ftr.erase(cur_ftr.begin() + i);
@ -191,6 +194,7 @@ class Traite_image {
} }
} }
inline bool isFlowCorrect(Point2f u) inline bool isFlowCorrect(Point2f u)
{ {
return !cvIsNaN(u.x) && !cvIsNaN(u.y) && fabs(u.x) < 1e9 && fabs(u.y) < 1e9; return !cvIsNaN(u.x) && !cvIsNaN(u.y) && fabs(u.x) < 1e9 && fabs(u.y) < 1e9;
@ -215,6 +219,16 @@ class Traite_image {
pub_cmd.publish(twist); pub_cmd.publish(twist);
} }
//int to string helper function
string intToString(int number){
//this function has a number input and string output
std::stringstream ss;
ss << number;
return ss.str();
}
}; };