This would mean the average selling price of a house is $87,244 when the square footage and number of bedrooms in a house are both equal to zero. The value for the intercept term in this model is 87,244. We collect this data for 100 houses in a certain city and fit the following regression model: Suppose we’d like to fit a multiple linear regression model using square footage and number of bedrooms as predictor variables and selling price as the response variable. This makes sense to interpret since it’s plausible for a student to study for zero hours and take zero prep exams before the actual exam. This means the average exam score is 58.4 when the number of hours studied and the number of prep exams taken are both equal to zero. The value for the intercept term in this model is 58.4. Suppose we’d like to fit a multiple linear regression model using hours studied and prep exams taken as the predictor variables and exam score as the response variable.Įxam score = 58.4 + 2.23(hours) + 1.34(# prep exams) Similar to simple linear regression, it makes sense to interpret the value for the intercept in a multiple linear regression model sometimes but not always. x j: The value for the j th predictor variable.β j: The average change in the response variable for a one unit increase in the j th predictor variable, assuming all other predictor variables are held constant.β 0: The mean value of the response variable when all predictor variables are zero.Interpreting the Intercept in Multiple Linear RegressionĪ multiple linear regression model takes the following form: The intercept just doesn’t have any meaningful interpretation for this model. However, we still need to keep the intercept term in the model in order to use the model to make predictions. This does not make sense to interpret since it’s not possible for a person to weigh zero pounds. This would mean the average height of a person is 22.3 inches when their weight is equal to zero. The value for the intercept term in this model is 22.3. We collect this data for 50 individuals and fit the following regression model: Suppose we’d like to fit a simple linear regression model using weight (in pounds) as a predictor variable and height (in inches) as the response variable. This makes sense to interpret since it’s plausible for a student to study for zero hours in preparation for an exam.Įxample 2: Intercept Does Not Make Sense to Interpret This means the average exam score is 65.4 when the number of hours studied is equal to zero. The value for the intercept term in this model is 65.4. We collect this data for 50 students in a certain college course and fit the following regression model: Suppose we’d like to fit a simple linear regression model using hours studied as a predictor variable and exam score as the response variable. The following examples illustrate this.Įxample 1: Intercept Makes Sense to Interpret In some cases, it makes sense to interpret the value for the intercept in a simple linear regression model but not always. x: The value for the predictor variable.β 1: The average change in the response variable for a one unit increase in x.β 0: The mean value of the response variable when x = 0.ŷ: The predicted value for the response variable.Interpreting the Intercept in Simple Linear RegressionĪ simple linear regression model takes the following form: This tutorial explains how to interpret the intercept value in both simple linear regression and multiple linear regression models. The intercept (sometimes called the “constant”) in a regression model represents the mean value of the response variable when all of the predictor variables in the model are equal to zero.
0 Comments
Leave a Reply. |