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In Bayesian statistics, the posterior probability is the probability of the parameters given the evidence , and is denoted (|). It contrasts with the likelihood function , which is the probability of the evidence given the parameters: p ( X | θ ) {\displaystyle p(X|\theta )} .
The posterior probability of a model depends on the evidence, or marginal likelihood, which reflects the probability that the data is generated by the model, and on the prior belief of the model. When two competing models are a priori considered to be equiprobable, the ratio of their posterior probabilities corresponds to the Bayes factor .
An informative prior expresses specific, definite information about a variable. An example is a prior distribution for the temperature at noon tomorrow. A reasonable approach is to make the prior a normal distribution with expected value equal to today's noontime temperature, with variance equal to the day-to-day variance of atmospheric temperature, or a distribution of the temperature for ...
These posterior probabilities are proportional to the product of the prior and the marginal likelihood, where the marginal likelihood is the integral of the sampling density over the prior distribution of the parameters. In complex models, marginal likelihoods are generally computed numerically. [11]
Update the point with least likelihood with some Markov chain Monte Carlo steps according to the prior, accepting only steps that keep the likelihood above . end return Z {\displaystyle Z} ; At each iteration, X i {\displaystyle X_{i}} is an estimate of the amount of prior mass covered by the hypervolume in parameter space of all points with ...
Bayesian linear regression is a type of conditional modeling in which the mean of one variable is described by a linear combination of other variables, with the goal of obtaining the posterior probability of the regression coefficients (as well as other parameters describing the distribution of the regressand) and ultimately allowing the out-of-sample prediction of the regressand (often ...
The posterior distribution should have a non-negligible probability for parameter values in a region around the true value of in the system if the data are sufficiently informative. In this example, the posterior probability mass is evenly split between the values 0.08 and 0.43.
Given data and parameter , a simple Bayesian analysis starts with a prior probability (prior) () and likelihood to compute a posterior probability () (). Often the prior on θ {\displaystyle \theta } depends in turn on other parameters φ {\displaystyle \varphi } that are not mentioned in the likelihood.