Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I have binary skeletonized images and I use python library mahotas for extracting end-points and branched points.

I do not like mahotas thin function (there are too many little branches) and so I chose scikit-image skeletonize function.

Now troubles begin: in some images it doesn't more extract branched point. Why?

Scikit image function accepts both boolean and integer values (mahotas uses boolean).

image with no branched point detected

iamge with branched point detected

from skimage import morphology
import mahotas as mh
import pymorph as pm
import numpy as np
import cv2
from matplotlib import pyplot as plt
import scipy

def branchedPoints(skel):
    branch1=np.array([[2, 1, 2], [1, 1, 1], [2, 2, 2]])
    branch2=np.array([[1, 2, 1], [2, 1, 2], [1, 2, 1]])
    branch3=np.array([[1, 2, 1], [2, 1, 2], [1, 2, 2]])
    branch4=np.array([[2, 1, 2], [1, 1, 2], [2, 1, 2]])
    branch5=np.array([[1, 2, 2], [2, 1, 2], [1, 2, 1]])
    branch6=np.array([[2, 2, 2], [1, 1, 1], [2, 1, 2]])
    branch7=np.array([[2, 2, 1], [2, 1, 2], [1, 2, 1]])
    branch8=np.array([[2, 1, 2], [2, 1, 1], [2, 1, 2]])
    branch9=np.array([[1, 2, 1], [2, 1, 2], [2, 2, 1]])
    br1=mh.morph.hitmiss(skel,branch1)
    br2=mh.morph.hitmiss(skel,branch2)
    br3=mh.morph.hitmiss(skel,branch3)
    br4=mh.morph.hitmiss(skel,branch4)
    br5=mh.morph.hitmiss(skel,branch5)
    br6=mh.morph.hitmiss(skel,branch6)
    br7=mh.morph.hitmiss(skel,branch7)
    br8=mh.morph.hitmiss(skel,branch8)
    br9=mh.morph.hitmiss(skel,branch9)
    return br1+br2+br3+br4+br5+br6+br7+br8+br9

def endPoints(skel):
    endpoint1=np.array([[0, 0, 0],[0, 1, 0],[2, 1, 2]])
    endpoint2=np.array([[0, 0, 0],[0, 1, 2],[0, 2, 1]])
    endpoint3=np.array([[0, 0, 2],[0, 1, 1],[0, 0, 2]])
    endpoint4=np.array([[0, 2, 1],[0, 1, 2],[0, 0, 0]])
    endpoint5=np.array([[2, 1, 2],[0, 1, 0],[0, 0, 0]])
    endpoint6=np.array([[1, 2, 0],[2, 1, 0],[0, 0, 0]])
    endpoint7=np.array([[2, 0, 0],[1, 1, 0],[2, 0, 0]])
    endpoint8=np.array([[0, 0, 0],[2, 1, 0],[1, 2, 0]])
    ep1=mh.morph.hitmiss(skel,endpoint1)
    ep2=mh.morph.hitmiss(skel,endpoint2)
    ep3=mh.morph.hitmiss(skel,endpoint3)
    ep4=mh.morph.hitmiss(skel,endpoint4)
    ep5=mh.morph.hitmiss(skel,endpoint5)
    ep6=mh.morph.hitmiss(skel,endpoint6)
    ep7=mh.morph.hitmiss(skel,endpoint7)
    ep8=mh.morph.hitmiss(skel,endpoint8)
    ep = ep1+ep2+ep3+ep4+ep5+ep6+ep7+ep8
    return ep

def pruning(skeleton, size):

    for i in range(1, size):
        endpoints = endPoints(skeleton)
        endpoints = np.logical_not(endpoints)
        skeleton = np.logical_and(skeleton,endpoints)
    return skeleton


path = 'signs/a (0).jpg'

fork = mh.imread(path)  
imgbnbin = fork[:,:,0]

shape = list(fork.shape)

w =  (shape[0]/100 )*3.5

#structuring elements
disk7 = pm.sedisk(w)
disk5 = pm.sedisk(3)
disk3 = pm.sedisk(0.5)      

bfork = imgbnbin < 150

plt.gray()
plt.subplot(121)
plt.title("after binarization")
plt.imshow(bfork)
plt.show()

bfork = mh.morph.dilate(bfork, disk7)

bfork = np.array(bfork, dtype=np.bool)
#Pota cose inutili

bfork = mh.morph.close(bfork, disk3)

# Skeleton+Pruning
#skelFk = mh.thin(bfork)
bfork = np.array(bfork, dtype=np.uint8)
skelFk = morphology.skeletonize(bfork)
skelFk = np.array(skelFk, dtype=np.bool)

skelF_pruned = pruning(skelFk, 15)

#end points (Ep) from skeletons
## fork (Fk) sign
print("skelfpruned before of endpoint")
print(skelF_pruned[70])
EpFk = endPoints(skelF_pruned)
EpFk_p = endPoints(skelF_pruned)
EpFk_p = mh.dilate(EpFk_p,disk5)

# counting end-points
lab_Ek, n1 = mh.label(EpFk)
lab_Ekp, n1p = mh.label(EpFk_p)

print n1, ' end points on fork like image'
print n1p, ' end points on fork like image, after pruning'

#branched points
## Merge too close points by morphological dilation
### Fork
BpFk = branchedPoints(skelF_pruned)# br points on Fork

print("branched point")
bcols,brows = np.where(BpFk)
print(brows)
print(bcols)

print("end point")
ecols,erows = np.where(EpFk)
print(erows)

img = skelF_pruned

# viene dilatato per mostrare meglio il punto di giunzione
BpFk = mh.morph.dilate(BpFk, disk5)

## count branched points
lab_Ek, n3 = mh.label(BpFk)

print n3, ' branched points on fork like image'

#Overlay:
#Display end-points in blue
#        branched-points in yellow
#        skeleton in red 
display_Fk = pm.overlay(imgbnbin, red = img>0, blue = EpFk_p>0, yellow = BpFk>0)     
plt.gray()
plt.subplot(121)
plt.imshow(imgbnbin)
plt.imshow(display_Fk)
plt.show()
share|improve this question

1 Answer 1

I think the problem might be that there are actually 18 branch types and your code only searches for 9.

Try replacing your branch structures with:

xbranch0  = np.array([[1,0,1],[0,1,0],[1,0,1]])
xbranch1 = np.array([[0,1,0],[1,1,1],[0,1,0]])
tbranch0 = np.array([[0,0,0],[1,1,1],[0,1,0]])
tbranch1 = np.flipud(tbranch0)
tbranch2 = tbranch0.T
tbranch3 = np.fliplr(tbranch2)
tbranch4 = np.array([[1,0,1],[0,1,0],[1,0,0]])
tbranch5 = np.flipud(tbranch4)
tbranch6 = np.fliplr(tbranch4)
tbranch7 = np.fliplr(tbranch5)  
ybranch0 = np.array([[1,0,1],[0,1,0],[2,1,2]])
ybranch1 = np.flipud(ybranch0)
ybranch2 = ybranch0.T
ybranch3 = np.fliplr(ybranch2)
ybranch4 = np.array([[0,1,2],[1,1,2],[2,2,1]])
ybranch5 = np.flipud(ybranch4)
ybranch6 = np.fliplr(ybranch4)
ybranch7 = np.fliplr(ybranch5)

Those branch structures are configured to prevent multiple hits for any single branch point. If that is not an issue, you can always replace '0's with '2's in the array structures.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.