This regression is used when the goal is simply predictive modeling, we often don’t care about which particular predictors go into our model as long as the final model yields the best possible predictions.
It uses a list of possible independent variables to attempt to explain variance in a dependent variables.
It is quite similar to a kitchen sink at every household. You dump everything on a sink so that you can clean it later on. This regression also works similarly. You dump all your variables on one model and then find the significance.
This won’t be the final model but to overall look at what all the variables are trying to express. Then you can move forward by choosing the required variables for later models.
It often leads to overfitting which might direct you towards Type I error.
#kitchen sink regression using all variables
kitchen_sink_model <- lm(mpg ~ ., data=mtcars)
summary(kitchen_sink_model)##
## Call:
## lm(formula = mpg ~ ., data = mtcars)
##
## Residuals:
## Min 1Q Median 3Q Max
## -3.4506 -1.6044 -0.1196 1.2193 4.6271
##
## Coefficients:
## Estimate Std. Error t value Pr(>|t|)
## (Intercept) 12.30337 18.71788 0.657 0.5181
## cyl -0.11144 1.04502 -0.107 0.9161
## disp 0.01334 0.01786 0.747 0.4635
## hp -0.02148 0.02177 -0.987 0.3350
## drat 0.78711 1.63537 0.481 0.6353
## wt -3.71530 1.89441 -1.961 0.0633 .
## qsec 0.82104 0.73084 1.123 0.2739
## vs 0.31776 2.10451 0.151 0.8814
## am 2.52023 2.05665 1.225 0.2340
## gear 0.65541 1.49326 0.439 0.6652
## carb -0.19942 0.82875 -0.241 0.8122
## ---
## Signif. codes: 0 '***' 0.001 '**' 0.01 '*' 0.05 '.' 0.1 ' ' 1
##
## Residual standard error: 2.65 on 21 degrees of freedom
## Multiple R-squared: 0.869, Adjusted R-squared: 0.8066
## F-statistic: 13.93 on 10 and 21 DF, p-value: 3.793e-07