Bayesian refers to methods in probability and statistics named after Thomas Bayes (ca. 1702–1761), in particular methods related to statistical inference

**Overview**

Bayesian inference is a method of statistical inference which uses Bayes' theorem to find probability estimates of parameters or hypotheses. The statement of Bayes' theorem in Bayesian inference is

Here θ represents the parameters to be inferred and *d* the data. P(θ|d) is the posterior probability and P(θ|d) is the likelihood function. P(θ) is the prior: a function encoding previous beliefs about $\theta$ within a model appropriate for the data. P(d) is a normalization factor.

The formula is used as an updating procedure: as more data become available, the posterior can be updated successively. In the first instance, the prior must be chosen by the user. In later updates, the prior is usually chosen to be the posterior from a previous updating procedure.

(The "naive Bayes" classifier, popular in text classification, is sometimes called "Bayesian", even though it has next to nothing to do with Bayesian statistics.)

**References**

The following threads contain lists of references:

The following journals are dedicated to research in Bayesian statistics:

- Bayesian Analysis (Open Access)

**Tag usage**

Questions on tag bayesian should be about implementation and **programming** problems, not about the statistical or theoretical properties of the technique.
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