| adl.plot | Evaluate (and possibly plot) the General Dynamic Response Function (GDRF) for an autoregressive distributed lag (ADL) model, assuming the underlying model is in levels ('d.x' = 'd.y' = 0) and the user wants a marginal effect (the untransformed GDRF). (This is just a wrapper for 'GDRF.adl.plot' with simplifying assumptions) |
| approval | Data on US Presidential Approval |
| GDRF.adl.plot | Evaluate (and possibly plot) the General Dynamic Response Function (GDRF) for an autoregressive distributed lag (ADL) model |
| GDRF.gecm.plot | Evaluate (and possibly plot) the General Dynamic Response Function (GDRF) for a Generalized Error Correction Model (GECM) |
| gecm.plot | Evaluate (and possibly plot) the General Dynamic Response Function (GDRF) for a GECM(1,1) model, assuming the underlying model is in first differences ('x.vrbl.d.x' = 'y.vrbl.d.y' = 0 and 'x.d.vrbl.d.x' = 'y.d.vrbl.d.y' = 1) and the user wants a marginal effect (the untransformed GDRF) and inferences about y in levels to a treatment applied to x in levels. (This is just a wrapper for 'GDRF.gecm.plot' with simplifying assumptions) |
| gecm.to.adl | Translate the coefficients from the General Error Correction Model (GECM) to the autoregressive distributed lag (ADL) model |
| general.calculator | Generate the generalized effect formulae for an autoregressive distributed lag (ADL) model, given pulse effects and shock history |
| interact.adl.plot | Plot the interaction in a single-equation time series model estimated via 'lm'. |
| pulse.calculator | Generate pulse effect formulae for a given autoregressive distributed lag (ADL) model |
| toy.ts.interaction.data | Simulated interactive time series data |
| yhat.calculator | Transform the GDRF formulae to fitted value formulae |