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authorFlorian Jung <florian.a.jung@web.de>2012-12-02 00:26:20 +0100
committerFlorian Jung <florian.a.jung@web.de>2012-12-02 00:26:20 +0100
commit2b023e3bb1176e24d722ec0943b14864f5a70205 (patch)
treef8354d8d6d3082919b75d37495b8837dc1be3066 /detect_road_borders.cpp
parent3995002180b45f41aaa6d9fa19f1f45b22285677 (diff)
parameter optimiert
Diffstat (limited to 'detect_road_borders.cpp')
-rw-r--r--detect_road_borders.cpp34
1 files changed, 22 insertions, 12 deletions
diff --git a/detect_road_borders.cpp b/detect_road_borders.cpp
index af35651..6ca7153 100644
--- a/detect_road_borders.cpp
+++ b/detect_road_borders.cpp
@@ -352,7 +352,7 @@ double* calc_angle_deriv(double* angles, int first_nonbottom_idx, int size, int
int find_bestquality_index(const vector<Point>& contour, double* angle_derivative, int xlen, int ylen, int high_y, int first_nonbottom_idx, Mat& drawing,
- int* bestquality_j_out, int* bestquality_width_out, int* bestquality_out)
+ int* bestquality_j_out, int* bestquality_width_out, int* bestquality_out, int* bestquality_max_out)
{
assert(bestquality_out!=NULL);
assert(bestquality_j_out!=NULL);
@@ -378,7 +378,7 @@ int find_bestquality_index(const vector<Point>& contour, double* angle_derivativ
angle_derivative[j+1] < MAX_HYST*lastmax &&
angle_derivative[j+2] < MAX_HYST*lastmax)
{
- if (lastmax > 5) // threshold the maximum.
+ if (lastmax > 7) // threshold the maximum.
{
// search backward for the begin of that maximum region
int j0;
@@ -398,7 +398,7 @@ int find_bestquality_index(const vector<Point>& contour, double* angle_derivativ
// 3) the corresponding point's x-coordinates are near the middle of the image, if in doubt
int middle_x = xlen/2;
int distance_from_middle_x = abs(xlen/2 - contour[j].x);
- double quality = median_of_max_region
+ double quality = lastmax
* linear( contour[j].y, high_y, 1.0, high_y+ (ylen-high_y)/10, 0.0, true) // excessively punish points far away from the top border
* linear( distance_from_middle_x, 0.8*middle_x, 1.0, middle_x, 0.6, true); // moderately punish point far away from the x-middle.
@@ -424,6 +424,7 @@ int find_bestquality_index(const vector<Point>& contour, double* angle_derivativ
// now bestquality_j holds the index of the point with the best quality.
*bestquality_out = bestquality;
+ *bestquality_max_out = bestquality_max;
*bestquality_j_out = bestquality_j;
*bestquality_width_out = bestquality_width;
}
@@ -543,12 +544,15 @@ void draw_it_all(Mat drawing, vector< vector<Point> >& contours, const vector<Ve
line(drawing, contour[steering_point], origin_point, Scalar(0,255,255));
}
-#define SMOOTHEN_BOTTOM 25
-#define SMOOTHEN_MIDDLE 10
+#define SMOOTHEN_BOTTOM 20
+#define SMOOTHEN_MIDDLE 7
#define ANG_SMOOTH 9
// return the index of the point to steer to.
-int find_steering_point(Mat orig_img, Point origin_point, int** contour_map, Mat& drawing) // orig_img is a binary image
+int find_steering_point(Mat orig_img, Point origin_point, int** contour_map, Mat& drawing, double* confidence) // orig_img is a binary image
+// confidence is between 0.0 (not sure at all) and 1.0 (definitely sure)
{
+ assert(confidence!=NULL);
+
Mat img;
orig_img.copyTo(img); // this is needed because findContours destroys its input.
drawing = Mat::zeros( img.size(), CV_8UC3 );
@@ -568,9 +572,9 @@ int find_steering_point(Mat orig_img, Point origin_point, int** contour_map, Mat
double* angles = calc_contour_angles(contour, first_nonbottom_idx, img.rows, SMOOTHEN_MIDDLE, SMOOTHEN_BOTTOM);
double* angle_derivative = calc_angle_deriv(angles, first_nonbottom_idx, contour.size(), ANG_SMOOTH);
- int bestquality, bestquality_j, bestquality_width;
+ int bestquality, bestquality_j, bestquality_width, bestquality_max;
find_bestquality_index(contour, angle_derivative, img.cols, img.rows, high_y, first_nonbottom_idx, drawing,
- &bestquality_j, &bestquality_width, &bestquality);
+ &bestquality_j, &bestquality_width, &bestquality, &bestquality_max);
// now we have a naive steering point. the way to it might lead
// us offroad, however.
@@ -578,10 +582,14 @@ int find_steering_point(Mat orig_img, Point origin_point, int** contour_map, Mat
int steering_point=find_ideal_line(img.cols,img.rows, contour, origin_point, contour_map, bestquality_j);
- draw_it_all(drawing, contours, hierarchy, first_nonbottom_idx, contour, angles, angle_derivative,bestquality_j,bestquality_width,bestquality,steering_point, origin_point);
-
+ draw_it_all(drawing, contours, hierarchy, first_nonbottom_idx, contour, angles, angle_derivative,bestquality_j,bestquality_width,bestquality_max,steering_point, origin_point);
+ cout << bestquality << "\t" << bestquality_max<<endl;
delete [] angle_derivative;
delete [] angles;
+
+ *confidence = (bestquality-1.0) / 3.0;
+ if (*confidence<0.0) *confidence=0;
+ if (*confidence>1.0) *confidence=1.0;
return steering_point;
}
@@ -648,7 +656,8 @@ int main(int argc, char* argv[])
Mat drawing;
- find_steering_point(thres, Point(thres.cols/2, thres.rows-thres.rows/5), contour_map, drawing);
+ double confidence;
+ find_steering_point(thres, Point(thres.cols/2, thres.rows-2*thres.rows/5), contour_map, drawing, &confidence);
@@ -658,8 +667,9 @@ int main(int argc, char* argv[])
area_history_ptr=(area_history_ptr+1)%AREA_HISTORY;
int prev_area=area_history_sum/AREA_HISTORY;
- cout << "\r\e[2A area = "<<area_abs<<",\tratio="<< area_ratio <<" \n" <<
+ cout << "area = "<<area_abs<<",\tratio="<< area_ratio <<" \n" <<
"prev area = "<<prev_area<<",\tchange="<< (100*area_abs/prev_area -100) <<"%\n"<<flush;
+ cout << "confidence = "<<confidence<<endl;
if (area_ratio>0.1)
{