Model-Based Clustering, Classification, and Density Estimation Using mclust in R

T Brendan Murphy author Adrian E Raftery author Luca Scrucca author Chris Fraley author

Format:Hardback

Publisher:Taylor & Francis Ltd

Published:20th Apr '23

Currently unavailable, our supplier has not provided us a restock date

This hardback is available in another edition too:

Model-Based Clustering, Classification, and Density Estimation Using mclust in R cover

Model-based clustering and classification methods provide a systematic statistical approach to clustering, classification, and density estimation via mixture modeling. The model-based framework allows the problems of choosing or developing an appropriate clustering or classification method to be understood within the context of statistical modeling. The mclust package for the statistical environment R is a widely adopted platform implementing these model-based strategies. The package includes both summary and visual functionality, complementing procedures for estimating and choosing models.

Key features of the book:

  • An introduction to the model-based approach and the mclust R package
  • A detailed description of mclust and the underlying modeling strategies
  • An extensive set of examples, color plots, and figures along with the R code for reproducing them
  • Supported by a companion website, including the R code to reproduce the examples and figures presented in the book, errata, and other supplementary material

Model-Based Clustering, Classification, and Density Estimation Using mclust in R is accessible to quantitatively trained students and researchers with a basic understanding of statistical methods, including inference and computing. In addition to serving as a reference manual for mclust, the book will be particularly useful to those wishing to employ these model-based techniques in research or applications in statistics, data science, clinical research, social science, and many other disciplines.

"The book gives an excellent introduction to using the R package mclust for mixture modeling with (multivariate) Gaussian distributions as well as covering the supervised and semi-supervised aspects. A thorough introduction to the theoretic concepts is given, the software implementation described in detail and the application shown on many examples. I particularly enjoyed the in-depth discussion of different visualization methods."
~ Bettina Grün, WU (Vienna University of Economics and Business), Austria

"Cluster analysis, and its sister subjects of density estimation and mixture-model classification, used to be underserved topics in statistical texts. This magisterial book corrects that imbalance and does so comprehensively."
~ David Banks (Duke University)

"mclust is probably the R-package I use most. This book provides a clear, comprehensive, well-illustrated hands-on introduction to its many features. I particularly like the emphasis on various visualization methods and uncertainty quantification."
~Christian Martin Hennig (University of Bologna)

"The mclust R package has become synonymous with model-based clustering, classification and density estimation, and this book provides an excellent resource for the now millions of users, and future users, of mclust. The book elegantly balances the statistical detail required to have a broad understanding of the methods available in mclust, alongside practical applications of these methods through detailed code and real data examples. The book provides an excellent scaffold to support an mclust user through the concepts and application of model-based clustering, classification and density estimation. The chapter on visualisation in the context of model-based clustering and classification is a unique contribution, collating important topics that to date have received scant attention in this area. This book is essential reading for any practitioner of model-based clustering, classification or density estimation."
~Claire Gormley (University College Dublin)

ISBN: 9781032234960

Dimensions: unknown

Weight: 585g

242 pages