Improved Feature Transformations for Classification Using Density Estimation

Density based logistic regression (DLR) is a recently introduced classification technique, that performs a one-to-one non-linear transformation of the original feature space to another feature space based on density estimations. This new feature space is particularly well suited for learning a logistic regression model. Whilst performance gains, good interpretability and time efficiency make DLR attractive, there exist some limitations to its formulation. In this paper, we tackle these limitations and propose several new extensions: 1) A more robust methodology for performing density estimations, 2) A method that can transform two or more features into a single target feature, based on the use of higher order kernel density estimation, 3) Analysis of the utility of DLR for transfer learning scenarios. We evaluate our extensions using several synthetic and publicly available datasets, demonstrating that higher order transformations have the potential to boost prediction performance and that DLR is a promising method for transfer learning.