Machine Learning : Clustering, Self-Organizing Maps
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1 Machine Learning Clustering, Self-Organizing Maps 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps
2 Clustering The task: partition a set of objects into meaningful subsets (clusters). The objects in a subset should be similar. Notations: Set of Clusters Set of indices Feature vectors Partitioning for, 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 2
3 Clustering Let and each cluster has a representative The task reads: Alternative variant is to consider the clustering as a mapping that assigns a cluster number to each 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 3
4 K-Means Algorithm Initialize centers randomly, Repeat until convergence: 1. Classify: 2. Update centers: The task is NP converges to a local optimum (depends on the initialization) 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 4
5 Sequential K-Means Repeat infinitely: 1. Chose randomly a feature vector from the training data 2. Classify it: 3. Update the -th center: with a decreasing step converges to the same, as the parallel version is a special case of Robbins-Monro Algorithm 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 5
6 Some variants Other distances, e.g. instead of In the K-Means algorithm the classification step remains the same, the update step the geometric median of (a bit complicated as the average ). Another problem: features may be not additive ( does not exist) Solution: K-Medioid Algorithm ( training set) is a feature vector from the 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 6
7 A generalization Observe (for the Euclidean distance): In what follows: with a Distance Matrix that can be defined in very different ways. Example: Objects are nodes of a weighted graph, of the shortest path from to. is the length Distances for other objects (non-vectors): Edit (Levenshtein) distance between two symbolic sequences For graphs distances based on graph isomorphism etc. 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 7
8 An application color reduction Objects are pixels, features are RGB-values. Partition the RGB-space into characteristic colors. (8 colors) 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 8
9 Another application superpixel segmentation Object are pixels. Features are RGBXY-values. Those pixels belong to the same cluster that are close to each other both spatially and in in the RGB-space SLIC Superpixels: 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 9
10 Cohonen Networks, Self-Organizing Maps The task is to approximate a dataset by a neural network of a certain topology. An example stereo in flatland. The input space is 3- (or more) dimensional, the set of points is however isomorphic to a 2D-space (up to noises). 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 10
11 Self-Organizing Maps SOM-s (usually) consist of RBF-neurons, each one represents (covers) a part of the input space (specified by the centers ). The network topology is given by means of a distance. Example neurons are nodes of a weighted graph, distances are shortest paths. For the flatland example the graph is a 2D-grid with unit weight for all edges. 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 11
12 Self-Organizing Maps, sequential algorithm 1. Chose randomly a feature vector from the training data (white) 2. Compute the winner -neuron (dark-yellow) 3. Compute the neighborhood of in the network (yellow) 4. Update the weights of all neurons from 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 12
13 Self-Organizing Maps, algorithms is monotonously decreasing with respect to (time) and Without 3) the sequential K-Means. Parallel variants: Go through all feature vectors, sum up the gradients, apply. Example for : The network fits into the data distribution (unfolds). 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 13
14 K-Means Expectation Maximization EM compute posteriors for the Expectation step K-Means classify object 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 14
15 Conclusion Before: 1. Probability theory models, inference, learning 2. Discriminative learning Classifiers Neural networks: 1. Feed-Forward Networks complex classifiers 2. Hopfield Networks structured output 3. Cohonen Networks clustering (unsupervised), model fitting Next topics further classifiers: 1. Support Vector Machines, Kernels 2. Empirical Risk minimization 3. Principal Component Analysis 4. Combining classifiers Decision Trees, AdaBoost 12/12/2013 Machine Learning : Clustering, Self-Organizing Maps 15
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