SVEC: Estimation of a SVEC

A list of class ‘svecest’ with the following elements is returned:

Consider the following reduced form of a k-dimensional vector error correction model:

$$ A \Delta \bold{y}_t = \Pi \bold{y}_{t-1} + \Gamma_1 \Delta \bold{y}_{t-1} + \ldots + \Gamma_p \Delta \bold{y}_{t-p + 1} + \bold{u}_t \quad .$$

This VECM has the following MA representation:

$$ \bold{y}_t = \Xi \sum_{i=1}^t \bold{u}_i + \Xi^*(L)\bold{u}_t + \bold{y}_0^* \quad ,$$

with \(\Xi = \beta_{\perp} (\alpha_{\perp}'(I_K - \sum_{i=1}^{p-1}\Gamma_i)\beta_{\perp} )^{-1}\alpha_{\perp}'\) and \(\Xi^*(L)\) signifies an infinite-order polynomial in the lag operator with coefficient matrices \(\Xi^*_j\) that tends to zero with increasing size of \(j\).

Contemporaneous restrictions on the impact matrix \(B\) must be supplied as zero entries in SR and free parameters as NA entries. Restrictions on the long run impact matrix \(\Xi B\) have to be supplied likewise. The unknown parameters are estimated by maximising the concentrated log-likelihood subject to the imposed restrictions by utilising a scoring algorithm on:

$$ \ln L_c(A, B) = - \frac{KT}{2}\ln(2\pi) + \frac{T}{2}\ln|A|^2 - \frac{T}{2}\ln|B|^2 - \frac{T}{2}tr(A'B'^{-1}B^{-1}A\tilde{\Sigma}_u) $$

with \(\tilde{\Sigma}_u\) signifies the reduced form variance-covariance matrix and \(A\) is set equal to the identity matrix \(I_K\).

If ‘start’ is not set, then normal random numbers are used as starting values for the unknown coefficients. In case of an overidentified SVEC, a likelihood ratio statistic is computed according to:

$$ LR = T(\ln\det(\tilde{\Sigma}_u^r) - \ln\det(\tilde{\Sigma}_u)) \quad , $$

with \(\tilde{\Sigma}_u^r\) being the restricted variance-covariance matrix and \(\tilde{\Sigma}_u\) being the variance covariance matrix of the reduced form residuals. The test statistic is distributed as \(\chi^2(K*(K+1)/2 - nr)\), where \(nr\) is equal to the number of restrictions.