问题
I am trying to plot the elbow of k means using the below code:
load CSDmat %mydata
for k = 2:20
opts = statset('MaxIter', 500, 'Display', 'off');
[IDX1,C1,sumd1,D1] = kmeans(CSDmat,k,'Replicates',5,'options',opts,'distance','correlation');% kmeans matlab
[yy,ii] = min(D1'); %% assign points to nearest center
distort = 0;
distort_across = 0;
clear clusts;
for nn=1:k
I = find(ii==nn); %% indices of points in cluster nn
J = find(ii~=nn); %% indices of points not in cluster nn
clusts{nn} = I; %% save into clusts cell array
if (length(I)>0)
mu(nn,:) = mean(CSDmat(I,:)); %% update mean
%% Compute within class distortion
muB = repmat(mu(nn,:),length(I),1);
distort = distort+sum(sum((CSDmat(I,:)-muB).^2));
%% Compute across class distortion
muB = repmat(mu(nn,:),length(J),1);
distort_across = distort_across + sum(sum((CSDmat(J,:)-muB).^2));
end
end
%% Set distortion as the ratio between the within
%% class scatter and the across class scatter
distort = distort/(distort_across+eps);
bestD(k)=distort;
bestC=clusts;
end
figure; plot(bestD);
The values of bestD (within cluster variance/between cluster variance) are
[
0.401970132754914
0.193697163350293
0.119427184084282
0.0872681777446508
0.0687948264457301
0.0566215549396577
0.0481117619129058
0.0420491551659459
0.0361696583755145
0.0320384092689509
0.0288948343304147
0.0262373245283877
0.0239462330460614
0.0218350896369853
0.0201506779033703
0.0186757121130685
0.0176258625858971
0.0163239661159014
0.0154933431470081
]
The code is adapted from Lihi Zelnik-Manor, March 2005, Caltech.
The plot ratio of within cluster variance to between cluster variance is a smooth curve with a knee that is smooth like a curve, plot bestD data given above. How do we find the knee for such graphs?
回答1:
I think that it is better to use only your "within class distortion" as optimization parameter:
%% Compute within class distortion
muB = repmat(mu(nn,:),length(I),1);
distort = distort+sum(sum((CSDmat(I,:)-muB).^2));
Use this without dividing this value by "distort_across". If you calculate the "derivate" of this:
unexplained_error = within_class_distortion;
derivative = diff(unexplained_error);
plot(derivative)
The derivative(k) tells you how much the unexplained error has decreased by adding a new cluster. I suggest that you stop adding clusters when the decrease on this error is less than ten times the first decrease you obtained.
for (i=1:length(derivative))
if (derivative(i) < derivative(1)/10)
break
end
end
k_opt = i+1;
In fact the method to obtain the optimum number of clusters is application dependent, but I think that you can obtain a good value of k using this suggestion.
来源:https://stackoverflow.com/questions/10955378/k-means-finding-elbow-when-the-elbow-plot-is-a-smooth-curve