Variance decomposition or forecast error variance decomposition indicates the amount of information each variable contributes to the other variables in a vector autoregression

Vector autoregression

Vector autoregression is a statistical model used to capture the linear interdependencies among multiple time series. VAR models generalize the univariate autoregression models. All the variables in a VAR are treated symmetrically; each variable has an equation explaining its evolution based on...

 (VAR) models. Variance decomposition determines how much of the forecast error variance of each of the variable can be explained by exogenous shocks to the other variables.

Calculating the forecast error variance

For the VAR (p) of form
.

Change this to a VAR (1) by writing it in companion form (see general matrix notation of a VAR(p)) where

, , and

where , and are dimensional column vectors, is by dimensional matrix and , and are dimensional column vectors.

Calculate the mean squared error of the h-step forecast of variable j, ,
where is the j^th column of and the subscript refers to that element of the matrix. where is a lower triangular matrix obtained by a Cholesky decomposition

Cholesky decomposition

In linear algebra, the Cholesky decomposition or Cholesky triangle is a decomposition of a Hermitian, positive-definite matrix into the product of a lower triangular matrix and its conjugate transpose. It was discovered by André-Louis Cholesky for real matrices...

of such that . where so is by dimensional matrix. is the covariance matrix of the errors .

The amount of forecast error variance of variable accounted for by exogenous shocks to variable is given by

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