y: a (T-p x 1) matrix of observations.
X: a (T-p x p + const) matrix of lagged observations with a leading column of 1s if const=TRUE or not if const=FALSE.
x: a (T-p x p) matrix of lagged observations.
fitted: a (T-p x 1) matrix of fitted values.
resid: a (T-p x 1) matrix of residuals.
mu: estimated mean of the process.
beta: a ((1 + p) x 1) matrix of estimated coefficients.
intercept: estimate of intercept.
phi: estimates of autoregressive coefficients.
stdev: estimated standard deviation of the process.
sigma: estimated variance of the process.
theta: vector containing: mu, sigma, and phi.
theta_mu_ind: vector indicating location of mean with 1 and 0 otherwise.
theta_sig_ind: vector indicating location of variance with 1 and 0 otherwise.
theta_var_ind: vector indicating location of variance with 1 and 0 otherwise. This is the same as theta_sig_ind in ARmdl.
theta_phi_ind: vector indicating location of autoregressive coefficients with 1 and 0 otherwise.
stationary: Boolean indicating if process is stationary if TRUE or non-stationary if FALSE.
n: number of observations after lag transformation (i.e., n = T-p).
p: number of autoregressive lags.
q: number of series. This is always 1 in ARmdl.
k: number of regimes. This is always 1 in ARmdl.
control: List with model options used.
logLike: log-likelihood.
AIC: Akaike information criterion.
BIC: Bayesian (Schwarz) information criterion.
Hess: Hessian matrix. Approximated using hessian and only returned if getSE=TRUE.
info_mat: Information matrix. Computed as the inverse of -Hess. If matrix is not PD then nearest PD matrix is obtained using nearest_spd. Only returned if getSE=TRUE.
nearPD_used: Boolean determining whether nearPD function was used on info_mat if TRUE or not if FALSE. Only returned if getSE=TRUE.
theta_se: standard errors of parameters in theta. Only returned if getSE=TRUE.