Portmanteau Test

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A Portmanteau Test is a class of statistical tests for a group of autocorrelations.



References

2016

Examples: In time series analysis, two well-known versions of a portmanteau test are available for testing for autocorrelation in the residuals of a model: it tests whether any of a group of autocorrelations of the residual time series are different from zero. This test is the Ljung–Box test, which is an improved version of the Box–Pierce test,having been devised at essentially the same time; a seemingly trivial simplification (omitted in the improved test) was found to have a deleterious effect. This portmanteau test is useful in working with ARIMA models.
In the context of regression analysis, including regression analysis with time series structures, a portmanteau test has been devised, which allows a general test to be made for the possibility that a range of types nonlinear transformations of combinations of the explanatory variables should have been included in addition to a selected model structure.
In order to overcome this problem, we test whether the first hh autocorrelations are significantly different from what would be expected from a white noise process. A test for a group of autocorrelations is called a portmanteau test, from a French word describing a suitcase containing a number of items.
One such test is the Box-Pierce test based on the following statistic
[math]\displaystyle{ Q=T\sum_{k=1}^{h}r^2_k }[/math]
where [math]\displaystyle{ h }[/math] is the maximum lag being considered and [math]\displaystyle{ T }[/math] is number of observations. If each [math]\displaystyle{ r_k }[/math] is close to zero, then [math]\displaystyle{ Q }[/math] will be small. If some [math]\displaystyle{ r_k }[/math] values are large (positive or negative), then [math]\displaystyle{ Q }[/math] will be large. We suggest using [math]\displaystyle{ h=10 }[/math] for non-seasonal data and [math]\displaystyle{ h=2m }[/math]for seasonal data, where [math]\displaystyle{ m }[/math] is the period of seasonality. However, the test is not good when [math]\displaystyle{ h }[/math] is large, so if these values are larger than [math]\displaystyle{ T/5 }[/math], then use [math]\displaystyle{ h=T/5 }[/math].
A related (and more accurate) test is the Ljung-Box test based on
[math]\displaystyle{ Q^∗=T(T+2)\sum{k=1}{h}(T−k)^−1r^2_k }[/math]
Again, large values of [math]\displaystyle{ Q^∗ }[/math] suggest that the autocorrelations do not come from a white noise series.