1 / 8

Econ 427 lecture 15 slides

Econ 427 lecture 15 slides. Forecasting with AR Models. Optimal forecast. Remember, the best linear forecast is often the linear projection ,. Where the info set will generally be current and past values of y and innovations ( epsilons).

kelli
Download Presentation

Econ 427 lecture 15 slides

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Econ 427 lecture 15 slides Forecasting with AR Models

  2. Optimal forecast • Remember, the best linear forecast is often the linear projection, • Where the info set will generally be current and past values of y and innovations (epsilons). • For forecasting AR processes, we will proceed as we did for MA: • Write out the process at time T+1 • Projecting this on the time T info set • We could rewrite the cov. Stationary AR in MA form • But there is a simpler way—the chain rule of forecasting

  3. Optimal forecast for AR • Consider the AR(1) process: • To get optimal fcst for t=T+1, write out the process at time T+1: • Projecting this on the time T info set, (remember that expectations of future innovs are zero)

  4. Optimal forecast for AR • For T+2: • Projecting this on the time T info set, • But we already have an optimal fcst of yT+1. Substituting: • Similarly, for a 3-step-ahead forecast, we would get: • Generally:

  5. More complicated AR forecasts • What if we had a higher-order AR(p) time series? • There would be p terms in each time period • What if we had both MA and AR terms? • We would combine the two methods—see pp. 178-79 in the book

  6. Uncertainty around optimal forecast • Again, we would like to know how much uncertainty there will be around point estimates of forecasts. • To see that, let’s look at the forecast errors, Can you show that the error for a 3-step-ahead fcst is:

  7. Uncertainty around optimal forecast • In general: • Note that the errors are serially correlated but don’t drop off

  8. Uncertainty around optimal forecast • forecast error variance is the variance of eT+h,T Generally, • And we can use these conditional variances to construct confidence intervals. What will they look like?

More Related