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I am fitting a model using the auto.arima function in package forecast. I get a model that is AR(1), for example. I then extract residuals from this model. How does this generate the same number of residuals as the original vector? If this is an AR(1) model then the number of residuals should be 1 less than the dimensionality of the original time series. What am I missing?


arprocess = as.numeric(arima.sim(model = list(ar=.5), n=100))
#auto.arima(arprocess, d=0, D=0, ic="bic", stationary=T)
#  Series: arprocess 
#  ARIMA(1,0,0) with zero mean     

#  Coefficients:
#          ar1
#       0.5198
# s.e.  0.0867

# sigma^2 estimated as 1.403:  log likelihood=-158.99
# AIC=321.97   AICc=322.1   BIC=327.18
r = resid(auto.arima(arprocess, d=0, D=0, ic="bic", stationary=T))
> length(r)
  [1] 100

Update: Digging into the code of auto.arima, I see that it uses Arima which in turn uses stats:::arima. Therefore the question is really how does stats:::arima compute residuals for the very first observation?

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your model is ARIMA(1,0,1) with zero mean not the ARIMA(1,0,0) with zero mean. You need to set max.q=0 to get ARIMA(1,0,0) –  Metrics Sep 6 '13 at 19:47
can you explain why you believe this to be the case? regardless the question remains the same even if it's ARIMA(1,0,1). –  Alex Sep 6 '13 at 19:49
Yes, it is still the same. I am going thru that. –  Metrics Sep 6 '13 at 19:54
I checked the residuals for ARMA (1,0,0) and found that they are correctly computed for period 2 to 100 (y(t)-b*y(t-1)). But, I couldn't figure how it computes the residual for period 1. However, I think (in R) the length of residuals are usually kept as same as observation (as mentioned in p.5 here). The focus, I think, should be on how it computes the residuals for the first period, in case of ARMA(1,0,0). –  Metrics Sep 6 '13 at 21:17
Agreed. I suspect that it simply takes the value at t=-1 to be equal to 0. Would be nice if the package author commented on this. –  Alex Sep 6 '13 at 21:31

1 Answer 1

up vote 3 down vote accepted

The residuals are the actual values minus the fitted values. For the first observation, the fitted value is the estimated mean of the process. For subsequent observations, the fitted value is $\phi$ times the previous observation, assuming an AR(1) process had been estimated.

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Can you please explain the rationale of using estimated mean of the process for the first observation?Is that included in documentation? –  Metrics Sep 7 '13 at 15:25
@RobHyndman: Thanks, we suspected this was the case but both made mistakes when verifying I guess. Appreciate your help. –  Alex Sep 7 '13 at 18:16
A fitted value is the best predictor given all previous information. For the first observation, there is no previous information. So for a stationary process, the best predictor is the mean of the process. –  Rob Hyndman Sep 8 '13 at 1:53
Thanks for the clarification. –  Metrics Sep 14 '13 at 13:44

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