![]() ![]() finally, we describe some built-in diagnostic plots in R for testing the assumptions underlying linear regression model.next, we present linear regresion assumptions, as well as, potential problems you can face when performing regression analysis.we start by explaining residuals errors and fitted values.To do so, we generally examine the distribution of residuals errors, that can tell you more about your data. Therefore, you should closely diagnostic the regression model that you built in order to detect potential problems and to check whether the assumptions made by the linear regression model are met or not. The relationship could be polynomial or logarithmic.Īdditionally, the data might contain some influential observations, such as outliers (or extreme values), that can affect the result of the regression. This has been described in the Chapters and this current chapter, you will learn additional steps to evaluate how well the model fits the data.įor example, the linear regression model makes the assumption that the relationship between the predictors (x) and the outcome variable is linear. This chapter describes regression assumptions and provides built-in plots for regression diagnostics in R programming language.Īfter performing a regression analysis, you should always check if the model works well for the data at hand.Ī first step of this regression diagnostic is to inspect the significance of the regression beta coefficients, as well as, the R2 that tells us how well the linear regression model fits to the data. Linear regression (Chapter makes several assumptions about the data at hand.
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