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I'm using this script to cluster a set of 3D points using the kmeans matlab function but I always get this error "Empty cluster created at iteration 1". The script I'm using:

[G,C] = kmeans(XX, K, 'distance','sqEuclidean', 'start','sample');

XX can be found in this link XX value and the K is set to 3 So if anyone could please advise me why this is happening.

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2 Answers 2

up vote 13 down vote accepted

It is simply telling you that during the assign-recompute iterations, a cluster became empty (lost all assigned points). This is usually caused by an inadequate cluster initialization, or that the data has less inherent clusters than you specified.

Try changing the initialization method using the start option. Kmeans provides four possible techniques to initialize clusters:

  • sample: sample K points randomly from the data as initial clusters
  • uniform: select K points uniformly across the range of the data
  • cluster: perform preliminary clustering on a small subset
  • manual: manually specify initial clusters

Also you can try the different values of emptyaction option, which tells MATLAB what to do when a cluster becomes empty.

Ultimately, I think you need to reduce the number of clusters, i.e try K=2 clusters.

I tried to visualize your data to get a feel for it:

load matlab_X.mat
line(XX(:,1), XX(:,2), XX(:,3), ...
    'LineStyle','none', 'Marker','.', 'MarkerSize',1)
axis vis3d; view(3); grid on

After some manual zooming/panning, it looks like a silhouette of a person:


You can see that the data of 307200 points is really dense and compact, which confirms what I suspected; the data doesnt have that many clusters.

Here is the code I tried:

>> [IDX,C] = kmeans(XX, 3, 'start','uniform', 'emptyaction','singleton');
>> tabulate(IDX)
  Value    Count   Percent
      1    18023      5.87%
      2    264690     86.16%
      3    24487      7.97%

Whats more, the entire points in cluster 2 are all duplicate points ([0 0 0]):

>> unique(XX(IDX==2,:),'rows')
ans =
     0     0     0

The other two clusters look like:

clr = lines(max(IDX));
for i=1:max(IDX)
line(XX(IDX==i,1), XX(IDX==i,2), XX(IDX==i,3), ...
    'Color',clr(i,:), 'LineStyle','none', 'Marker','.', 'MarkerSize',1)

clustered points

So you might get better clusters if you first remove duplicate points first...

In addition, you have a few outliers that might affect the result of clustering. Visually, I narrowed down the range of the data to the following intervals which encompasses most of the data:

>> xlim([-500 100])
>> ylim([-500 100])
>> zlim([900 1500])

Here is the result after removing dupe points (over 250K points) and outliers (around 250 data points), and clustering with K=3 (best of out of 5 runs with the replicates option):

XX = unique(XX,'rows');
XX(XX(:,1) < -500 | XX(:,1) > 100, :) = [];
XX(XX(:,2) < -500 | XX(:,2) > 100, :) = [];
XX(XX(:,3) < 900 | XX(:,3) > 1500, :) = [];

[IDX,C] = kmeans(XX, 3, 'replicates',5);

with almost an equal split across the three clusters:

>> tabulate(IDX)
  Value    Count   Percent
      1    15605     36.92%
      2    15048     35.60%
      3    11613     27.48%

Recall that the default distance function is euclidean distance, which explains the shape of the formed clusters.

final clustering

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Thank you very much, I really appreciate your kind assistance! I've used this code but the figure appears without clustering the points with different colors: XX = unique(XX,'rows'); XX(XX(:,1) < -500 | XX(:,1) > 100, :) = []; XX(XX(:,2) < -500 | XX(:,2) > 100, :) = []; XX(XX(:,3) < 900 | XX(:,3) > 1500, :) = []; [IDX,C] = kmeans(XX, 3, 'replicates',5); clr = lines(max(IDX)); for ii=1:1 line(XX(IDX==ii,1), XX(IDX==ii,2), XX(IDX==ii,3), ... 'Color',clr(ii,:), 'LineStyle','none', 'Marker','.', 'MarkerSize',1) axis vis3d; view(3); grid on end –  shepherd Aug 2 '13 at 11:00
oops there was a typo (for i=1:1 should have been for i=1:K where K is the number of clusters). Fixed now, see the edit :) –  Amro Aug 2 '13 at 11:06
Thanks for this amazing solution, I really appreciate it. I'm wondering if you could assist me in doing another thing. Is it possible to remove the regions outside the big region? For example, in the above figure on the bottom right corner there are two regions of points not attached to the big region, I was wondering how can I remove the outlier regions? Many Thanks –  shepherd Aug 2 '13 at 13:28
@user1460166: perhaps another clustering algorithm like DBSCAN or mean-shift (density-based) might separate the points in the way you are expecting. Here are some other posts that will point you in the right direction: stackoverflow.com/questions/4567515/…, stackoverflow.com/a/2303583/97160 . –  Amro Aug 2 '13 at 13:44
You can always do this as a one-time interactive filtering using MATLAB's brushing capabilities. See this one for an example: stackoverflow.com/a/7455390/97160 –  Amro Aug 2 '13 at 13:54

If you are confident with your choice of "k=3", here is the code I wrote for not getting an empty cluster:

[IDX,C] = kmeans(XX,3,'distance','cosine','start','sample', 'emptyaction','singleton');

while length(unique(IDX))<3 ||  histc(histc(IDX,[1 2 3]),1)~=0
% i.e. while one of the clusters is empty -- or -- we have one or more clusters with only one member
[IDX,C] = kmeans(XX,3,'distance','cosine','start','sample', 'emptyaction','singleton');
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