GTM: The Generative Topographic Mapping

Bishop, Christopher M.; Svensén, Markus; Williams, Christopher K. I.

doi:10.1162/089976698300017953

GTM: The Generative Topographic Mapping

Christopher M. Bishop, Markus Svensén, Christopher K. I. Williams

NeCo 1998 pp. 215-234

doi:10.1162/089976698300017953 /neco/1998/bishop1998neco-gtm/

Abstract

Latent variable models represent the probability density of data in a space of several dimensions in terms of a smaller number of latent, or hidden, variables. A familiar example is factor analysis, which is based on a linear transformation between the latent space and the data space. In this article, we introduce a form of nonlinear latent variable model called the generative topographic mapping, for which the parameters of the model can be determined using the expectation-maximization algorithm. GTM provides a principled alternative to the widely used self-organizing map (SOM) of Kohonen (1982) and overcomes most of the significant limitations of the SOM. We demonstrate the performance of the GTM algorithm on a toy problem and on simulated data from flow diagnostics for a multiphase oil pipeline.

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Text

Bishop et al. "GTM: The Generative Topographic Mapping." Neural Computation, 1998. doi:10.1162/089976698300017953

Markdown

[Bishop et al. "GTM: The Generative Topographic Mapping." Neural Computation, 1998.](https://mlanthology.org/neco/1998/bishop1998neco-gtm/) doi:10.1162/089976698300017953

BibTeX

@article{bishop1998neco-gtm,
  title     = {{GTM: The Generative Topographic Mapping}},
  author    = {Bishop, Christopher M. and Svensén, Markus and Williams, Christopher K. I.},
  journal   = {Neural Computation},
  year      = {1998},
  pages     = {215-234},
  doi       = {10.1162/089976698300017953},
  volume    = {10},
  url       = {https://mlanthology.org/neco/1998/bishop1998neco-gtm/}
}