# Watershed segmentation algorithm for segmenting occluded leaves in matlab

The main task is to eliminate the complicated background of a leaf and extract the targeted leaf from an occluded leaf image in MATLAB. To eliminate the background i have applied K-means clustering algo. Now the main task is to segment the leaf from an occluded leaf using watershed segmentation algorithm. I am not able to find the perfect segments for every single leaf. Please help me. I have uploaded the sample images and also watershed segmentation code.

ORIGINAL IMAGE

Image after eliminating background using K-Means clustering algorithm and watershed Segmentation superimposed on original image

I want the main middle leaf to be a single segment, so that i can extract it.

I have given the watershed segmentation code below

``````function wateralgo(img)

F=im2double(F);

%Converting RGB image to Intensity Image
r=F(:,:,1);
g=F(:,:,2);
b=F(:,:,3);
I=(r+g+b)/3;
imshow(I);

hy = fspecial('sobel');
hx = hy';
Iy = imfilter(double(I), hy, 'replicate');
Ix = imfilter(double(I), hx, 'replicate');

Lrgb = label2rgb(L);
figure, imshow(Lrgb), title('Watershed transform of gradient magnitude (Lrgb)');

se = strel('disk',20);
Io = imopen(I, se);
figure, imshow(Io), title('Opening (Io)');
Ie = imerode(I, se);
Iobr = imreconstruct(Ie, I);
figure, imshow(Iobr), title('Opening-by-reconstruction (Iobr)');

Ioc = imclose(Io, se);
figure, imshow(Ioc), title('Opening-closing (Ioc)');

Iobrd = imdilate(Iobr, se);
Iobrcbr = imreconstruct(imcomplement(Iobrd), imcomplement(Iobr));
Iobrcbr = imcomplement(Iobrcbr);
figure, imshow(Iobrcbr), title('Opening-closing by reconstruction (Iobrcbr)');

fgm = imregionalmin(Iobrcbr);
figure, imshow(fgm), title('Regional maxima of opening-closing by reconstruction (fgm)');

I2 = I;
I2(fgm) = 255;
figure, imshow(I2), title('Regional maxima superimposed on original image (I2)');

se2 = strel(ones(7,7));
fgm2 = imclose(fgm, se2);
fgm3 = imerode(fgm2, se2);
fgm4 = bwareaopen(fgm3, 20);
I3 = I;
I3(fgm4) = 255;
figure, imshow(I3), title('Modified regional maxima superimposed on original image (fgm4)');

bw = im2bw(Iobrcbr, graythresh(Iobrcbr));
figure, imshow(bw), title('Thresholded opening-closing by reconstruction (bw)');

D = bwdist(bw);
DL = watershed(D);
bgm = DL == 0;
figure, imshow(bgm), title('Watershed ridge lines (bgm)');

I4 = I;
I4(imdilate(L == 0, ones(3, 3)) | bgm | fgm4) = 255;
figure, imshow(I4), title('Markers and object boundaries superimposed on original image (I4)');

Lrgb = label2rgb(L, 'jet', 'w', 'shuffle');
figure, imshow(Lrgb), title('Colored watershed label matrix (Lrgb)');

figure, imshow(I), hold on
himage = imshow(Lrgb);
title('Lrgb superimposed transparently on original image');
end
``````
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@Phonon Sorry the code is poorly indented but please help me the solution. –  Rohit Kalaghatkar Apr 23 '12 at 16:59
which leaf are you trying to extract? –  vini Apr 29 '12 at 8:07
Under what range of environmental conditions must your leaf segmentation algorithm perform? Do you have any control over the scene? Does it absolutely have to use a watershed algorithm? I am not sure the gradient information is strong enough to give you a robust solution. You probably want an algorithm or model that allows you to deploy stronger priors. The shape of the leaves is quite stereotyped, so perhaps look at a deformable model might be appropriate. If time is short, perhaps a heuristic approach based on region-growing might give you some quick results? –  William Payne May 1 '12 at 19:44
@vini We are trying to extract the leaf that covers the maximum portion of the image. Which ever leaf that is in the center. And eliminate the rest other leaves. –  Rohit Kalaghatkar May 2 '12 at 19:02
@WilliamPayne The Leaf segmentation algorithm should work for single leaf and occluded leaves with complicated background such as other leaves, soil, residues, stem, branches etc. After we apply the watershed segmentation algorithm we are not able to control the segmentation of the leaves properly. The leaf with a larger portion covering the image and also considering the leaf which is at the center must be extracted and the rest all must be eliminated. The algorithm needs refinement. Please suggest me else a different approach that works even better. –  Rohit Kalaghatkar May 2 '12 at 19:10