Extract the corners of an obstacle contour.
[x,y,d,n] = NARVAL_IP_ObstCorners(c)
contour matrix.
x-coordinates of corners.
y-coordinates of corners.
direction vector.
length vector.
NARVAL_IP_ObstCorners extracts the corners of the obstacle contour c. Their coordinates are stored in [x,y]. d gives the direction vector ([1 2 3 4 5 6 7 8]) of each corner found in each object. n provides the numbers of corners for each object.
dt=getdate(); seed=dt(10); rand('seed',seed);//initialization of the random values generator no=4;//quantity of obstacles (rectangle) L=1000;//squared area side hm=100;//minimal height hM=250;//maximal height wm=100;//minimal width wM=250;//maximal width Al=[0 %pi/2 %pi -%pi/2];//available angles for obstacles [Xs,Ys,X,Y,H,W,A]=NARVAL_IP_RectObstacles(no,L,hm,hM,wm,wM);//generation of obstacles [P]=NARVAL_IP_PotentialRot(X,Y,H,W,A,L);//generation of obstacle matrix z=10;//zoom factor o=2;// 1=mean, 2=max, 3=min, 4=median Pz=NARVAL_IP_MRA(P,z,o);//scale modification [Pzx,Pzy]=size(Pz);//image size w1=1;//window index w2=2;//window index scf(w1); clf(w1); grayplot(1:Pzx,1:Pzy,Pz);//graph visualization xset("colormap",graycolormap(128)); scf(w2); clf(w2); [PEz]=NARVAL_IP_Erosion(Pz);//contour performance Cont=Pz-PEz;//contour 1 [Contx,Conty]=size(Cont);//image size grayplot(1:Contx,1:Conty,Cont);//graph visualization xset("colormap",graycolormap(128)); [x,y,direction,n]=NARVAL_IP_ObstCorners(Cont);//application of NARVAL_IP_ObstCorners x y direction n | ![]() | ![]() |
Dr. Foued Melakessou
Research Associate
Interdisciplinary Centre for Security, Reliability and Trust
Room F106
University of Luxembourg
6, rue Coudenhove Kalergi
L-1359 Luxembourg-Kirchberg
E-mail: foued.melakessou@uni.lu
Tel: (+352) 46 66 44 5346