9: Beyond the Ordinary

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The methods of ordinary least squares (OLS) provide a powerful and intuitive foundation for statistical modeling. However, its core assumptions — linearity, homoskedasticity, and normality of errors — are often not met by complicated, real-world data. The transformations covered in the previous section are one key strategy for adapting data to meet these requirements. But what do we do when transformations are insufficient, when the violation of assumptions is fundamental to the process we are studying, or when our research question demands a different lens?

This part of this book moves beyond the foundational framework of OLS to equip you with a more advanced and flexible statistical toolkit. We transition from adapting the data to fit the model, to tailoring the model itself to fit the data and answer more nuanced questions. We will explore a family of estimators designed for specific, commonly encountered challenges: Weighted Least Squares (WLS) and Generalized Least Squares (GLS) formally model heteroskedasticity and correlated errors, respectively, to regain efficiency and valid inference. Quantile Regression abandons the exclusive focus on the conditional mean to model the entire conditional distribution, offering robust insights into effects at the median, tails, or any other quantile of interest — crucial for understanding inequality or extreme outcomes. Finally, we will lay the groundwork for a unified theoretical approach through Maximum Likelihood Estimation (MLE), the engine behind many of the most powerful modern models.

Together, these methods represent a paradigm shift. They acknowledge that the "best" model is not always a straight line fitted by minimizing squared errors, but rather the estimator whose logic best aligns with the structure of your data and the specificity of your inquiry. This section will provide you with the conceptual understanding and practical skills to select, implement, and interpret these advanced techniques, dramatically expanding the range of phenomena you can analyze with rigor and confidence.

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