Hi, thanks for your question. The estimated coefficients on AR and MA terms represent the LS estimates of the 'rho' and 'theta' terms in these respective series. For example the coefficient estimated in an AR(1) process is the estimate of the coefficient on the first lag of the error. You should include these terms when reporting your results. Hope that makes sense, best, Ben

Hi, thanks for your message. Higher order MA processes are in general harder to diagnose than their lower order equivalents. One methodology is simply to 'try' higher order processes and compare the fit to identify the order. If an AR process is present as well as an MA, then it is worth examining the total and partial autocorrelograms after including an AR term. If MA is present then there should be signs of this even after including the AR terms. Hope this helps! Thanks, Ben

Hi, yes that's correct. Thanks, Ben

Hi Ben I'me getting confused on one point: how do you exactly remove/subtract the n lags autocorrelation?I mean, are you computing the "beta" for every n lag ? I know I'm a bit confused so do you think you may show an excel example of all computations? thanks

Thank you for your clear video

Thank you Ben very cool!

Ben - what digital pen do you use? please send me a link. Thanks

Thanks for this reply. I've looked at some of your videos but was wondering on any application of MA() and AR() processes in regression. I'm not certain how (in using EViews for example) to interpret the coefficients for multivariate regression model that has an AR() and/or MA() term such as Box-Jenkins approach.

Thanks again Ben. So, for example, if we were to do a forecast with estimates from regression with an AR(1), the AR(1) term would be simply added as a part of the equation in an effort to encompass its impact on the dependent variable.

good video. Anything further on identifying higher order MA() processes as shown above? Also, how can one distinguish if an MA() process is applicable when AR() is present as shown in total correlogram?

Hi, Ben. I'm not sure if my previous question made sense. Essentially, when using statistical software such as EViews, when MA() and AR() terms are used in a regression equation, there is an estimated coefficient for these terms. Is there any interpretation of these parameter estimates? Also, should they be included when presenting regression results as a formula? It's been a long time since I took econometrics and a lot of the time-series topics have left me. When it comes to application of these issues, I can't seem to find a lot on the web either. Thanks for the videos.

Why does the AR2 correlogram become similar to the MR1 correlogram after 2 time periods?

Hi Ben, From this video we see that ACF gives a correlogram of X with Xt-n and PACF gives correlogram of the residuals. Then, why do we use ACF for finding 'q' and PACF for finding 'p' for an ARIMA(p,d,q) ? Shouldn't it be the other way? Because p corresponds to AR(p) and q corresponds to MA(q). Thanks!

thank you for a good video

very useful video. I am not with a background of statistics, but I needed to know the meanings of ACF and PACF. and it was helpful. so, thank you :) I still have one query. Sometimes, in the figures, the ACF may not have the classical decaying phase, or the PACF may not have the classical peak pattern (also the vice versa), so, in these case, is it possible to predict a model like whether its an AR component or MA component ?

Cool !!

Hmmmm. Seems like my previous comment from a few days ago was somehow deleted. Anyways, my newer comment is a bit clearer I think. If not, please let me know. Thanks again.

Totally failed on PACF to explain it