# Latent variable model

Talk0*34,142*pages on

this wiki

Assessment |
Biopsychology |
Comparative |
Cognitive |
Developmental |
Language |
Individual differences |
Personality |
Philosophy |
Social |

Methods |
Statistics |
Clinical |
Educational |
Industrial |
Professional items |
World psychology |

**Statistics:**
Scientific method ·
Research methods ·
Experimental design ·
Undergraduate statistics courses ·
Statistical tests ·
Game theory ·
Decision theory

A **latent variable model** is a statistical model that relates a set of variables
(so-called *manifest variables*) to set of latent variables.

It is assumed that 1) the responses on the indicatiors or manifest variables are the result of an individual's position on the latent variable(s), and 2) that the manifest variables have nothing in common after controlling for the latent variable (local independence).

Different types of the latent variable model can be grouped according to whether the manifest and latent variables are categorical or continuous:

Manifest variables\Latent variables | Continuous | Categorical |
---|---|---|

Continuous | Factor analysis | Latent profile analysis |

Categorical | Latent trait analysis | Latent class analysis |

Another name for latent trait analysis is item response theory (IRT). The most simple IRT model is the Rasch model. An important part of the latent profile analysis is the mixture model.

In factor analysis and latent trait analysis the latent variables are treated as continuous normally distributed variables, and in latent profile analysis and latent class analysis as from a multinomial distribution. The manifest variables in factor analysis and latent profile analysis are continuous and in most cases, their conditional distribution given the latent variables is assumed to be normal. In latent trait analysis and latent class analysis, the manifest variables are discrete. These variables could be dichotomous, ordinal or nominal variables. Their conditional distributions are assumed to be binomial or multinomial.

Because the distribution of a continuous latent variable can be approximated by a discrete distribution, the distinction between continuous and discrete variables turns out not to be fundamental at al. Therefore there may be a psychometrical latent variable, but not a psychological psychometric variable.

This page uses Creative Commons Licensed content from Wikipedia (view authors). |