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Codes for Agglomerative Clustering, Spectral Clustering and Kernelized K-Means Clustering

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Clustering

To run: python filename.py

Note that ideally, one performs clustering on real world datasets. This was the objective here too. And hence two datasets were downloaded - The Tamilnadu Electricity Board Hourly Readings Data Set https://archive.ics.uci.edu/ml/datasets/Tamilnadu+Electricity+Board+Hourly+Readings and the 3D Road Network (North Jutland, Denmark) Data Set https://archive.ics.uci.edu/ml/datasets/3D+Road+Network+%28North+Jutland%2C+Denmark%29 Both have few features and hence can be plotted and visualized. But the problem was that there were no clear cut clusters based on the class labels. Another problem was that there was a large number of class labels. Hence for understanding clustering algorithms, I decided to create blobs using scikit-learn and then clusterize them - each blob as a cluster - ideally.

  1. Agglomerative Clustering : This implements two cluster merging criterion:
  • min distance criterion - Merge the two clusters which have the minimum distance between two points - one from each cluster.
  • mean distance criterion - Merge two clusters based on the mean of all the points in each cluster.
    Set the mindist flag in line 5. Also take care about the dist parameter in lines 220 and 222. Changing them gives different number of clusters.
    Reference used http://www.janeriksolem.net/2009/04/hierarchical-clustering-in-python.html
  1. Kernel KMeans Clustering : Two kernels have been used here:
  1. Spectral Clustering : Two similarity measures have been implemented here for constructing the similarity matrix:
  • Gaussian similarity
  • Epsilon Neighbourhood similarity
    Set the Epsilonneighbourhood flag in line 6 and the desired number of clusters as numofclusters in line 7. Be very careful to set the gamma in calcgaussiansimilarity and the epsilon in the calceneighbourhood methods as this clustering algorithm is very sensitive to how we define the similarity measure. If unsure, uncomment lines 107 to 114 and comment out lines 100 to 105 - sets the similarity matrix according to the labels - which is the ideal case. Another thing to note is that KMeans can get stuck at local minima - see line 170
    Reference used http://www.cs.cmu.edu/~aarti/Class/10701/readings/Luxburg06_TR.pdf

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Codes for Agglomerative Clustering, Spectral Clustering and Kernelized K-Means Clustering

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