I've been studying about kmeans clustering, and one thing that's not clear is how you choose the value of k. Is it just a matter of trial and error, or is there more to it?
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You can maximize the Bayesian Information Criterion (BIC):
where Another approach is to start with a large value for Finally, you can start with one cluster, then keep splitting clusters until the points assigned to each cluster have a Gaussian distribution. In "Learning the k in kmeans" (NIPS 2003), Greg Hamerly and Charles Elkan show some evidence that this works better than BIC, and that BIC does not penalize the model's complexity strongly enough. 


Basically, you want to find a balance between two variables: the number of clusters (k) and the average variance of the clusters. You want to minimize the former while also minimizing the latter. Of course, as the number of clusters increases, the average variance decreases (up to the trivial case of k=n and variance=0). As always in data analysis, there is no one true approach that works better than all others in all cases. In the end, you have to use your own best judgement. For that, it helps to plot the number of clusters against the average variance (which assumes that you have already run the algorithm for several values of k). Then you can use the number of clusters at the knee of the curve. 


Yes, you can find the best number of clusters using Elbow method, but I found it troublesome to find the value of clusters from elbow graph using script. You can observe the elbow graph and find the elbow point yourself, but it was lot of work finding it from script. So another option is to use Silhouette Method to find it. The result from Silhouette completely comply with result from Elbow method in R. Here`s what I did.
Hope it helps!! 


For kmean you might want to have a look at gap statistic 


Look at this paper, "Learning the k in kmeans" by Greg Hamerly, Charles Elkan. It uses a Gaussian test to determine the right number of clusters. Also, the authors claim that this method is better than BIC which is mentioned in the accepted answer. 


First build a minimum spanning tree of your data.
Removing the K1 most expensive edges splits the tree into K clusters, This works only for Singlelinkage_clustering,
but for that it's fast and easy. Plus, MSTs make good visuals. 


If you use MATLAB, any version since 2013b that is, you can make use of the function This function lets you choose from among 3 clustering algorithms  It also lets you choose from among 4 clustering evaluation criteria  


There is something called Rule of Thumb. It says that the number of clusters can be calculated by k = (n/2)^0,5, where n is the total number of elements from your sample. You can check the veracity of this information on the following paper: http://www.ijarcsms.com/docs/paper/volume1/issue6/V1I60015.pdf There is also another method called Gmeans, where your distribution follows a Gaussian Distribution, or Normal Distribution. It consists on increasing k until all your k groups follow a Gaussian Distribution. It requires a lot of statistics, but can be done. Here is the source: http://papers.nips.cc/paper/2526learningthekinkmeans.pdf I hope this helps! 


My idea is to use Silhouette Coefficient to find the optimal cluster number(K). Details explanation is here. 


Assuming you have a matrix of data called



I'm surprised nobody has mentioned this excellent article: http://www.ee.columbia.edu/~dpwe/papers/PhamDN05kmeans.pdf After following several other suggestions I finally came across this article while reading this blog: https://datasciencelab.wordpress.com/2014/01/21/selectionofkinkmeansclusteringreloaded/ After that I implemented it in Scala, an implementation which for my use cases provide really good results. Here's code:



One possible answer is to use Meta Heuristic Algorithm like Genetic Algorithm to find k. That's simple. you can use random K(in some range) and evaluate the fit function of Genetic Algorithm with some measurment like Silhouette And Find best K base on fit function. 


R
) over here: stackoverflow.com/a/15376462/1036500 – Ben May 13 '13 at 4:52