14.6: Conclusion

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This chapter introduced the Generalized Linear Model paradigm, which is an extension of the Classical Linear Model paradigm from the previous two chapters. The advantage of the GLM paradigm is that more classes of dependent variables can be fit. The disadvantage (if we can call it that) is that we need to understand our data and model better. The three things we need to know are the linear predictor, the distribution of the dependent variable, and the function that links the expected value of the distribution with the linear predictor.

We tied this chapter to the previous chapters by showing that a GLM model using the Gaussian distribution (and the identity link) is equivalent to using the CLM. Three examples showed that the steps in modeling using the Generalized Linear Model paradigm are very similar to the steps used in modeling using the Classical Linear Model paradigm.

This chapter actually marked a major departure in how we see our data. Before, whenever a datum was different from our prediction, we viewed it as an error. Now, we realize that this variation is simply due to random fluctuations. We know this because we realize that our dependent variable is a random variable.

In the next chapters in this part of the book, we will examine more classes of dependent variables: binary, limited discrete (both nominal and ordinal), count, and non-negative continuous. As we examine these classes, pay attention to the selected distribution and the possible link functions. This table provides several of the distributions and their canonical link functions.

Before you move on to the next chapter, ask yourself one thing:

What requirements do we need to check for our models in this chapter?

Make sure you can explain why they are requirements, too.

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