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Template:Probability distribution In probability theory and statistics, the normal-Wishart distribution (or Gaussian-Wishart distribution) is a multivariate four-parameter family of continuous probability distributions. It is the conjugate prior of a multivariate normal distribution with unknown mean and precision matrix (the inverse of the covariance matrix).^[1]

Definition

Suppose

${\displaystyle \mathit{\mu }|{\mathit{\mu }}_0,\lambda ,\mathrm{\Lambda }\sim \mathcal{𝒩}(\mathit{\mu }|{\mathit{\mu }}_0,(\lambda \mathrm{\Lambda }{)}^{-1})}$

has a multivariate normal distribution with mean ${\displaystyle {\mathit{\mu }}_0}$ and covariance matrix ${\displaystyle (\lambda \mathrm{\Lambda }{)}^{-1}}$, where

${\displaystyle \mathrm{\Lambda }|\mathbf{W},\nu \sim \mathcal{𝒲}(\mathrm{\Lambda }|\mathbf{W},\nu )}$

has a Wishart distribution. Then ${\displaystyle (\mathit{\mu },\mathrm{\Lambda })}$ has a normal-Wishart distribution, denoted as

${\displaystyle (\mathit{\mu },\mathrm{\Lambda })\sim \mathrm{N}\mathrm{W}({\mathit{\mu }}_0,\lambda ,\mathbf{W},\nu ).}$

Characterization

Probability density function

${\displaystyle f(\mathit{\mu },\mathrm{\Lambda }|{\mathit{\mu }}_0,\lambda ,\mathbf{W},\nu )=\mathcal{𝒩}(\mathit{\mu }|{\mathit{\mu }}_0,(\lambda \mathrm{\Lambda }{)}^{-1})\mathcal{𝒲}(\mathrm{\Lambda }|\mathbf{W},\nu )}$

Properties

Scaling

Marginal distributions

By construction, the marginal distribution over ${\displaystyle \mathrm{\Lambda }}$ is a Wishart distribution, and the conditional distribution over ${\displaystyle \mathit{\mu }}$ given ${\displaystyle \mathrm{\Lambda }}$ is a multivariate normal distribution. The marginal distribution over ${\displaystyle \mathit{\mu }}$ is a multivariate t-distribution.

Posterior distribution of the parameters

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Generating normal-Wishart random variates

Generation of random variates is straightforward:

1. Sample ${\displaystyle \mathrm{\Lambda }}$ from a Wishart distribution with parameters ${\displaystyle \mathbf{W}}$ and ${\displaystyle \nu }$
2. Sample ${\displaystyle \mathit{\mu }}$ from a multivariate normal distribution with mean ${\displaystyle {\mathit{\mu }}_0}$ and variance ${\displaystyle (\lambda \mathrm{\Lambda }{)}^{-1}}$

Related distributions

• The normal-inverse Wishart distribution is essentially the same distribution parameterized by variance rather than precision.
• The normal-gamma distribution is the one-dimensional equivalent.
• The multivariate normal distribution and Wishart distribution are the component distributions out of which this distribution is made.

Notes

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References

• Bishop, Christopher M. (2006). Pattern Recognition and Machine Learning. Springer Science+Business Media.

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