Distance-weighted Support Vector Machine
This incremental improvement offers a more robust linear classification method for machine learning practitioners dealing with common data issues.
The authors tackled the problem of linear classification by proposing a hybrid method that combines Support Vector Machine (SVM) and Distance-weighted Discrimination (DWD) to address issues like data-piling, overfitting, and imbalanced data, showing competitive performance in simulated examples and real data applications.
A novel linear classification method that possesses the merits of both the Support Vector Machine (SVM) and the Distance-weighted Discrimination (DWD) is proposed in this article. The proposed Distance-weighted Support Vector Machine method can be viewed as a hybrid of SVM and DWD that finds the classification direction by minimizing mainly the DWD loss, and determines the intercept term in the SVM manner. We show that our method inheres the merit of DWD, and hence, overcomes the data-piling and overfitting issue of SVM. On the other hand, the new method is not subject to imbalanced data issue which was a main advantage of SVM over DWD. It uses an unusual loss which combines the Hinge loss (of SVM) and the DWD loss through a trick of axillary hyperplane. Several theoretical properties, including Fisher consistency and asymptotic normality of the DWSVM solution are developed. We use some simulated examples to show that the new method can compete DWD and SVM on both classification performance and interpretability. A real data application further establishes the usefulness of our approach.