English

Towards Aligned Data Forgetting via Twin Machine Unlearning

Machine Learning 2025-01-24 v2

Abstract

Modern privacy regulations have spurred the evolution of machine unlearning, a technique enabling a trained model to efficiently forget specific training data. In prior unlearning methods, the concept of "data forgetting" is often interpreted and implemented as achieving zero classification accuracy on such data. Nevertheless, the authentic aim of machine unlearning is to achieve alignment between the unlearned model and the gold model, i.e., encouraging them to have identical classification accuracy. On the other hand, the gold model often exhibits non-zero classification accuracy due to its generalization ability. To achieve aligned data forgetting, we propose a Twin Machine Unlearning (TMU) approach, where a twin unlearning problem is defined corresponding to the original unlearning problem. Consequently, the generalization-label predictor trained on the twin problem can be transferred to the original problem, facilitating aligned data forgetting. Comprehensive empirical experiments illustrate that our approach significantly enhances the alignment between the unlearned model and the gold model.

Keywords

Cite

@article{arxiv.2501.08615,
  title  = {Towards Aligned Data Forgetting via Twin Machine Unlearning},
  author = {Zhenxing Niu and Haoxuan Ji and Yuyao Sun and Zheng Lin and Fei Gao and Yuhang Wang and Haichao Gao},
  journal= {arXiv preprint arXiv:2501.08615},
  year   = {2025}
}

Comments

This paper is withdrawn as the updated version will be published to arXiv:2408.11433. We apologize for the miscommunication earlier

R2 v1 2026-06-28T21:06:50.034Z