English

Targeted synthetic data generation for tabular data via hardness characterization

Machine Learning 2025-02-11 v2 Machine Learning

Abstract

Data augmentation via synthetic data generation has been shown to be effective in improving model performance and robustness in the context of scarce or low-quality data. Using the data valuation framework to statistically identify beneficial and detrimental observations, we introduce a simple augmentation pipeline that generates only high-value training points based on hardness characterization, in a computationally efficient manner. We first empirically demonstrate via benchmarks on real data that Shapley-based data valuation methods perform comparably with learning-based methods in hardness characterization tasks, while offering significant computational advantages. Then, we show that synthetic data generators trained on the hardest points outperform non-targeted data augmentation on a number of tabular datasets. Our approach improves the quality of out-of-sample predictions and it is computationally more efficient compared to non-targeted methods.

Keywords

Cite

@article{arxiv.2410.00759,
  title  = {Targeted synthetic data generation for tabular data via hardness characterization},
  author = {Tommaso Ferracci and Leonie Tabea Goldmann and Anton Hinel and Francesco Sanna Passino},
  journal= {arXiv preprint arXiv:2410.00759},
  year   = {2025}
}
R2 v1 2026-06-28T19:03:56.859Z