I'm using the function regionprops to detect the number of trees on a image taked by drone. Original Image

First I removed the ground using Blue NDVI: Image BNDVI

Image with threshold: Image with Threshold

Then I used the function regionprops to detect the number of trees on image: Regionprops

But there are a problem on region 15, because all trees on that region are connected and it detects as one tree. I tried to separate the trees on that region using Watershed Segmentation, but its not working:

Watershed segmentation

Am I doing this the wrong way? Is there a better method to separate the trees?

If anyone can help me with this problem I will appreciate. Here is the region 15 without the ground: Region 15

If it helps, here is the Gradient Magnitude image: enter image description here

  • Can you tell how many trees are there? if so, how did you do it, what cues helped you count the different trees?
    – Shai
    Feb 23, 2017 at 7:24
  • To be sure, I can not know how many trees are in the image because even counting manually is tricky. But through the function of the regionprops I can know the area of ​​the region. And knowing that at most a tree has an area of ​​3000 pixels, and that the region to study has 112,000 pixels of area, so the region has around 37 trees. Feb 23, 2017 at 17:06

2 Answers 2


It has been some time since this question was asked. I hope it is not too late for an answer. I see a general problem of using watershed segmentation in similar questions. Sometimes the objects are apart, not touching each other like in this example . In such cases, only blurring the image is enough to use watershed segmentation. Sometimes the objects are located closely and touch each other, thus the boundaries of objects are not clear like in this example. In such cases, using distance transform-->blur-->watershed helps. In this question, the logical approach should be using distance transform. However, this time the boundaries are not clear due to shadows on and nearby the trees. In such cases, it is good to use any information that helps to separate the objects as in here or emphasise objects itself.

In this question, I suggest using colour information to emphasise tree pixels.
Here are the MATLAB codes and results.


%% Emphasize trees



subplot(121);imagesc(tmp),axis image;colorbar
subplot(122);imagesc(tmp>0),axis image;colorbar

%% Transforms

% Distance transform

% Blur
kernel = fspecial('gaussian',4*sigma+1,sigma);

subplot(121);imagesc(im_dist),axis image;colorbar
subplot(122);imagesc(im_blured),axis image;colorbar

% Watershed
L = watershed(max(im_blured(:))-im_blured);

imagesc(imOrig),axis image
hold on, plot(y,x,'r.','MarkerSize',3)

%% Local thresholding 

centers= [];
for i=1:max(L(:))    
    ind=find(L==i & im_blured>1);

    [thr,metric] =multithresh(g(ind),1);


    centers=[centers; cat(1,[],s.Centroid)];

imagesc(trees),axis image
hold on, plot(y,x,'r.','MarkerSize',3)

hold on, plot(centers(:,1),centers(:,2),'k^','MarkerFaceColor','r','MarkerSize',8)

enter image description here

enter image description here

enter image description here

  • SUPER! :D (15 character min limit )
    – Hadi
    Mar 20, 2017 at 0:26
  • This suggestion will definitely help me and will give the closest approximation I have had so far. Thank you very much Mar 20, 2017 at 21:36

You could try out a marker-based watershed. Vanilla watershed transforms never work out of the box in my experience. One way to perform one would be to first create a distance map of the segmented area by using imdist(). Then you could suppress local maxima by calling imhmax(). Then calling watershed() will usually perform noticeably better.

Here's a sample script on how to do it:

 bwTrees = imopen(bwTrees, strel('disk', 10));
 %stabilize the borders to lessen oversegmentation  

 distTrees = -bwDist(~bwTrees); %Distance transform 

 distTrees(~bwTrees) = -Inf; %set background to -Inf

 distTrees = imhmin(distTrees, 3); %suppress local minima

 basins = watershed(distTrees);
 ridges = basins == 0;

 segmentedTrees = bwTrees & ~ridges; %segment

 segmentedTrees = imopen(segmentedTrees, strel('disk', 2));
 %remove 'segmentation trash' caused by oversegmentation near the borders.

I fiddled around with the parameters for ~10min but got fairly poor results:

segmented trees

You'd need to pour work into this. Mostly in pre- and post-processing via the morphology. More curvature would help the segmentation, if you could lower the sensitivity of the segmentation in the first part. The size of the h-minima transform is also an paramater of interest. You can probably get adequate results this way.

Probably a better approach would come from the world of clustering techniques. If you have or can find a way to estimate the number of trees in the forest you should be able to use traditional clustering methods to segment out the trees. A Gaussian mixture model or a k-means with k-trees would probably work much better than a marker based watershed if you get even nearly the right amount of trees. Normally I'd estimate the number of trees based on the number of suppressed maxima on a h-maxima transform, but your labels might be a bit too sausagey for that. It's worth a try though.

  • Thank you for the suggestion.. I will try and then post here if it solved. Mar 1, 2017 at 3:03

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