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  • #1

    Autocorrelation

    I'm running dwatson test (estat dwatson) after a regression and the DW statistic is 1.26. Since this falls outside the 1.5-2.5 range, it suggests the presence of AC. When I ran a breusch-godfrey test (esttat bgodfrey) on the same regression, it was not significant and thus suggests the absence of AC. I was wondering which test should I rely on? Thank you.
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  • #2
    Originally posted by Brian Conway View Post
    Since this falls outside the 1.5-2.5 range
    Those limits look suspect (being round numbers). What is your sample size and how many RHS variables do you have?

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    • #3
      N=43 and number of IVs is 6. Thank you for your help.

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      • #4
        For those values, \(d_L= 1.23\) and \(d_U= 1.83\), so you have \(d_L \leq d \leq d_U\) and you have inconclusive evidence for positive serial correlation. You should proceed "as if" you have positive serial correlation and use robust (Newey-West) standard errors if estimation is by OLS.
        Click image for larger version Name: Capture.PNG Views: 1 Size: 154.1 KB ID: 1765869

        Last edited by Andrew Musau; 16 Oct 2024, 10:40.
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        • #5
          Thank you very much for your help Andrew.

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          • #6
            I'd like to ask your help. In one regression, DW=.74 (3 IVs and 43 obs). Because this is well outside the 1.5-2.5. range for adjudicating DW, I concluded AC is present. As a check on this, I also ran bgodfrey, which was significant. Yet, when I look at .74 in relation to the table above, it gives 1.3683-1.666 as the range for adjudicating DW, which would suggest AC is not present. How should I adjudicate AC in this case? Thank you.

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            • #7
              If all your RHS variables are exogenous, use the Durbin Watson test.

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