Authors: Reinhold Decker, Christian Holsing, Sascha Lerke

Abstract:

This paper presents a new growing neural network for cluster analysis and market segmentation, which optimizes the size and structure of clusters by iteratively checking them for multivariate normality. We combine the recently published SGNN approach [8] with the basic principle underlying the Gaussian-means algorithm [13] and the Mardia test for multivariate normality [18, 19]. The new approach distinguishes from existing ones by its holistic design and its great autonomy regarding the clustering process as a whole. Its performance is demonstrated by means of synthetic 2D data and by real lifestyle survey data usable for market segmentation.

Keywords: Artificial neural network, clustering, multivariatenormality, market segmentation, self-organization

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1081941

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References:

[1] Assael, H. (1993): Marketing - Principles and Strategy, 2nd ed., Dryden Press, Fort Worth.
[2] Atukorale, A.; Suganthan, N. (2000): Hierarchical Overlapped Neural Gas Network with Application to Pattern Classification, Neurocomputing, Vol. 35, 165-176.
[3] Berry, M. (Ed.) (2003): Survey of Text Mining: Clustering, Classification, and Retrieval, Springer, New York.
[4] Bock, T.; Uncles, M. (2002): A Taxonomy of Differences Between Consumers for Market Segmentation, International Journal of Research in Marketing, Vol. 19, 215-224.
[5] Boone, D.S.; Roehm, M. (2002): Evaluating the Appropriateness of Market Segmentation Solutions Using Artificial Neural Networks and the Membership Clustering Criterion, Marketing Letters, Vol. 13, No. 4, 317-333.
[6] Chu, S.-C.; Roddick, J.F.; Pan, J.-S. (2002): An Incremental Multi- Centroid, Multi-run Sampling Scheme for k-Medoids-based Algorithms, Knowledge Discovery and Management Laboratory, Technical Report KDM-02-003, Flinders University of South Australia.
[7] Daszykowksi, M.; Walczak, B.; Massart, D.L. (2002): On the Optimal Partitioning of Data with k-means, Growing k-means, Neural Gas, and Growing Neural Gas, Journal of Chemical Information and Computer Sciences, Vol. 42, 1378-1389.
[8] Decker, R. (2005): Market Basket Analysis by Means of a Growing Neural Network, International Review of Retail, Distribution and Consumer Research, Vol. 15, No. 2, 151-169.
[9] Decker, R.; Monien, K. (2003): Market Basket Analysis with Neural Gas Networks and Self-organizing Maps, Journal of Targeting, Measurement and Analysis for Marketing, Vol. 11, No. 4, 373-386.
[10] Dittenbach, M.; Rauber, A.; Merkl, D. (2002): Uncovering Hierarchical Structure in Data Using the Growing Hierarchical Self-organizing Map, Neurocomputing, Vol. 48, 199-216.
[11] Fritzke, B. (1995): A Growing Neural Gas Network Learns Topologies, in: Tesauro, G.; Touretzky, D.S.; Leen, T.K. (Eds.): Advances in Neural Information Processing Systems 7, MIT Press, 625-632.
[12] Glotsos, D.; Tohka, J.; Ravazoula, P.; Cavouras, D.; Nikiforidis, G. (2005): Automated Diagnosis of Brain Tumours Astrocytomas Using Probabilistic Neural Network Clustering and Support Vector Machines, International Journal of Neural Systems, Vol. 15, No. 1-2, 1-11.
[13] Hamerly, G.; Elkan, C. (2003): Learning the k in k-means, Advances in Neural Information Processing Systems, Vol. 17.
[14] Hoff, K.E.; Culver, T.; Keyser, J.; Lin, M.; Manocha, D. (1998): Fast Computation of Generalized Voronoi Diagrams Using Graphics Hardware, Department of Computer Science, University of North Carolina.
[15] Hruschka, H.; Natter, M. (1999): Comparing Performance of Feedforward Neural Nets and K-means for Cluster-based Market Segmentation, European Journal of Operational Research, Vol. 114, No. 2, 346-353.
[16] Kohonen, T. (2001): Self-Organizing Maps, 3rd ed., Springer, Berlin.
[17] Likert, R. (1932): A Technique for the Measurement of Attitudes, Archives of Psychology, Vol. 140, 1-55.
[18] Mardia, K.V. (1970): Measures of Multivariate Skewness and Kurtosis with Applications, Biometrika, Vol. 57, 519-530.
[19] Mardia, K.V. (1974): Applications of Some Measures of Multivariate Skewness and Kurtosis for Testing Normality and Robustness Studies, Sankhya: Indian Journal of Statistics, Vol. 36, Series B, 115-128.
[20] Marsland, S.; Shapiro, J.; Nehmzow, U. (2002): A Self-Organising Network that Grows When Required, Neural Networks, Vol. 15, No. 8- 9, 1041-1058.
[21] Martinetz, T.; Schulten, K. (1991): A ÔÇÿNeural Gas- Network Learns Topologies, in: Kohonen, T.; Maekisara, K.; Simula, O.; Kangas, J. (Eds.): Artificial Neural Networks, North Holland, Amsterdam, 397- 402.
[22] Mecklin, C.J.; Mundfrom, D.J. (2004): An Appraisal and Bibliography of Tests for Multivariate Normality, International Statistical Review, Vol. 72, No. 1, 123-138.
[23] Ozbay, Y.; Ceylan, R.; Karlik, B. (2006): A Fuzzy Clustering Neural Network Architecture for Classification of ECG Arrhythmias, Computers in Biology & Medicine, Vol. 36, No. 4, 376-88.
[24] Papastefanou, G.; Schmidt, P.; Börsch-Supan, A.; L├╝dtke, H.; Oltersdorf, U. (Eds.) (2001): Social Research with Consumer Panel-Data, GESIS, Mannheim.
[25] Questier, F.; Guo, Q.; Walczak, B.; Massart, D.L.; Boucon, C.; de Jong, S. (2002): The Neural-Gas Network for Classifying Analytical Data, Chemometrics and Intelligent Laboratory Systems, Vol. 61, No. 1-2, 105-121.
[26] Sander, J.; Qin, X.; Lu, Z.; Niu, N.; Kovarsky, A. (1999): Automatic Extraction of Clusters from Hierarchical Clustering Representations, Working Paper, Department of Computing Science, University of Alberta Edmonton.
[27] Schwager, S.J. (1985): Testing For Multivariate Normality, in: Kotz, S.; Johnson, N.L. (Eds.): Encyclopedia of Statistical Sciences, Vol. 6, John Wiley & Sons, New York, 122.
[28] Solomon, M.R.; Marshall, G.W.; Stuart, E.W. (2005): Marketing - Real People, Real Choices, 4th ed., Prentice Hall, Upper Saddle River.
[29] Sugar, C.A.; James, G.M. (2003): Finding the Number of Clusters in a Dataset: An Information-theoretic Approach, Journal of the American Statistical Society, Vol. 98, No. 463, 750-762.
[30] Wagner, R.; Scholz, S.W.; Decker, R. (2005): The Number of Clusters in Market Segmentation, in: Baier, D.; Decker, R.; Schmidt-Thieme, L. (Eds.): Data Analysis and Decision Support, Springer, Berlin, 166-176.
[31] Wedel, M.; Kamakura, W. (2000): Market Segmentation: Conceptual and Methodological Foundations, 2nd ed., Kluwer Academic Publishers, Dordrecht.
[32] Wirth, N.; Dietrich, H. (2005): Management of Segmentation Projects, Yearbook of Marketing and Consumer Research, Vol. 3, 22-36.