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.
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=imread(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); %Applying Gradient hy = fspecial('sobel'); hx = hy'; Iy = imfilter(double(I), hy, 'replicate'); Ix = imfilter(double(I), hx, 'replicate'); gradmag = sqrt(Ix.^2 + Iy.^2); figure, imshow(gradmag,), title('Gradient magnitude (gradmag)'); L = watershed(gradmag); 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)'); gradmag2 = imimposemin(gradmag, bgm | fgm4); L = watershed(gradmag2); 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); set(himage, 'AlphaData', 0.3); title('Lrgb superimposed transparently on original image'); end