17.6: Conclusion

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In this chapter, we examined what we can do when our dependent variable is an unbounded count variable. As such variables are non-negative and discrete, nothing we have done thus far can properly handle them. While performing a log transform of the dependent variable as we did in Chapter 8: Fixing the Violations would allow us to actually make predictions that made sense (provided that there were no zero counts), the resultant model would probably violate one or more of the assumptions of the Classical Linear Model.

Two model families were introduced to handle count data. The Poisson family requires that the mean and the variance be equal (which translates to the residual deviance and the residual degrees of freedom be equal). This is rarely the case. When the residual variance is much larger than the mean, the data are overdispersed. The Negative Binomial family models overdispersed (and underdispersed) data, but it is a bit more difficult to fit with data.

As with Generalized Linear Models in general, the methods in this section model the expected value and not the actual outcome. As the parameters must be non-negative, we use a log link to ensure this condition holds. Note that we are not transforming the dependent variable, we are transforming the family parameter (or parameters) — \(\lambda\), in the case of the Poisson and the quasi-Poisson; \(\lambda\) and \(\theta\) for the Negative Binomial.

The last point of this chapter was a warning about the Bias-Variance trade-off: Including more variables fits the data better, not necessarily the process that gave rise to the data. Fewer variables may miss both the data and the underlying process. There is a happy medium — unfortunately, we cannot know what it is.

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