[1] J. D. Banfield and A. F. Raftery, Model-based Gaussian and non-Gaussian clustering, Biometrics 49 (1992), 803-821.
[2] A. Ben-Dor, R. Shamir and Z. Yakhini, Clustering gene expression patterns, J. Comput. Biol. 6 (1999), 281-297.
[3] J. G. Campbell, C. Fraley, F. Murtagh and A. E. Raftery, Linear flaw detection in woven textiles using model-based clustering, Pattern Recognition Letters 18 (1997), 1539-1548.
[4] J. G. Campbell, C. Fraley, D. Stanford, F. Murtagh and A. E. Raftery, Model-based methods for real-time textile fault detection, Inter. J. Imaging Sys. Tech. 10 (1999), 339-346.
[5] G. Chen, N. Banerjee, S. A. Jaradat, T. S. Tanaka, M. S. H. Ko and M. Q. Zhang, Evaluation and comparison of clustering algorithms in analyzing ES cell gene expression data, Statist. Sinica 12 (2002), 241-262.
[6] R. J. Cho, M. J. Campbell, E. A. Winzeler, L. Steinmetz, L. Wodicka, T. G. Wolfsberg, A. E. Gabrielian, D. Landsman, D. J. Lockhart and R. W. Davis, A genome wide transcriptional analysis of the mitotic cell cycle, Mol. Cell 2 (1998), 65-73.
[7] A. Dasgupta and A. E. Raftery, Detecting features in spatial point processes with clutter via model-based clustering, J. Amer. Statist. Assoc. 93 (1998), 294-302.
[8] F. De Smet, J. Mathys, K. Marchal, G. Thijs, B. D. Moor and Y. Moreau, Adaptive quality-based clustering of gene expression profiles, Bioinformatics 18 (2002), 735-746.
[9] A. P. Dempster, N. M. Laird and D. B. Rubin, Maximum likelihood from incomplete data via the EM algorithm (with discussion), J. Royal Statist. Soc., Ser. B 39 (1977), 1-38.
[10] C. Fraley and A. E. Raftery, Model-based clustering, discriminant analysis, and density estimation, J. Amer. Statist. Assoc. 97 (2002), 611-631.
[11] E. Hartuv, A. Schmitt, J. Lange, S. Meier-Ewert, H. Lehrach and R. Shamir, An algorithm for clustering cDNA fingerprints, Genomics 66 (2000), 249-256.
[12] S. Hashem, Optimal linear combinations of neural networks, Neural Networks 10 (1997), 599-614.
[13] T. Hastie, R. Tibshirani, M. B. Eisen, A. Alizadeh, R. Levy, L. Staudt, W. C. Chan, D. Botstein and P. Brown, �Gene shaving� as a method for identifying distinct sets of genes with similar expression patterns, Genome Biol. 1 (2000), 0003.1-0003.21.
[14] S. Haykin, Neural Networks: A Comprehensive Foundation, 2nd ed., Prentice & Hall International, Inc., 1999.
[15] L. J. Heyer, S. Kruglyak and S. Yooseph, Exploring expression data: identification and analysis of coexpressed genes, Genome Res. 9 (1999), 1106-1115.
[16] L. Hubert and P. Arabie, Comparing partitions, J. Classification (1985), 193-218.
[17] T. Kohonen, The self-organizing map, Proc. IEEE 78 (1990), 1464-1480.
[18] F. Liang and N. Wang, Dynamic hierarchical clustering of gene expression profiles, Pattern Recognition Letters 28 (2007), 1062-1076.
[19] R. J. A. Little and D. B. Rubin, Statistical Analysis with Missing Data, 2nd ed., Wiley & Sons, 2002.
[20] G. McLachlan and D. Peel, Finite Mixture Models, John Wiley & Sons, New York, 2000.
[21] S. Monti, P. Tamayo, J. Mesirov and T. Golub, Consensus clustering: a resampling-based method for class discovery and visualization of gene expression microarray data, Machine Learning 52 (2003), 91-118.
[22] M. P. Perrone, Improving regression estimation: averaging methods for variance reduction with extensions to general convex measure optimization, Ph.D. Thesis, Brown University, Rhode Island, 1993.
[23] W. M. Rand, Objective criteria for the evaluation of clustering methods, J. Amer. Statist. Assoc. 66 (1971), 846-850.
[24] P. J. Rousseeuw, Silhouettes: a graphical aid to the interpretation and validation of cluster analysis, J. Comput. Appl. Math. 20 (1987), 53-65.
[25] R. Sharan and R. Shamir, CLICK: a clustering algorithm with applications to gene expression analysis, Proceedings of the 38th Erns Schering Workshop on Bioinformatics and Genome Analysis, H. W. Mewes, H. Seidel and B. Weiss, eds., Springer-Verlag, 2000, pp. 83-108.
[26] M. Stephens, Dealing with label switching in mixture models, J. Royal Statist. Soc., Ser. B 62 (2000), 795-809.
[27] P. Tamayo, D. Slonim, J. Mesirov, Q. Zhu, S. Kitareewan, E. Dmitrovsky, E. S. Lander and T. R. Golub, Interpreting patterns of gene expression with self-organizing maps: methods and application to hematopoietic differentiation, Proc. Natl. Acad. Sci. USA 96 (1999), 2907-2912.
[28] G. C. Tseng and W. H. Wong, Tight clustering: a resampling-based approach for identification stable and tight patterns in data, Biometrics 61 (2005), 10-16.
[29] D. H. Wolpert, Stacked generalization, Neural Networks 5 (1992), 241-259.
[30] K. Y. Yeung, C. Fraley, A. Murua, A. E. Raftery and W. L. Ruzzo, Model-based clustering and data transformations for gene expression data, Bioinformatics 17 (2001), 977-987.
[31] K. Y. Yeung and W. L. Ruzzo, Principal component analysis for clustering gene expression data, Bioinformatics 17 (2001), 763-774.
|
