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Autores principales: Fang, Kun, Tao, Qinghua, Liu, Junxu, Xiao, Yaxin, Ye, Qingqing, Sun, Jian, Hu, Haibo
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2601.22456
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author Fang, Kun
Tao, Qinghua
Liu, Junxu
Xiao, Yaxin
Ye, Qingqing
Sun, Jian
Hu, Haibo
author_facet Fang, Kun
Tao, Qinghua
Liu, Junxu
Xiao, Yaxin
Ye, Qingqing
Sun, Jian
Hu, Haibo
contents Machine Unlearning (MU) aims at removing the influence of specific data from a pretrained model while preserving performance on the remaining data. In this work, a novel perspective for MU is presented upon low-dimensional feature subspaces, which gives rise to the potentials of separating the remaining and forgetting data herein. This separability motivates our LOFT, a method that proceeds unlearning in a LOw-dimensional FeaTure subspace from the pretrained model skithrough principal projections, which are optimized to maximally capture the information of the remaining data and meanwhile diminish that of the forgetting data. In training, LOFT simply optimizes a small-size projection matrix flexibly plugged into the pretrained model, and only requires one-shot feature fetching from the pretrained backbone instead of repetitively accessing the raw data. Hence, LOFT mitigates two critical issues in mainstream MU methods, i.e., the privacy leakage risk from massive data reload and the inefficiency of updates to the entire pretrained model. Extensive experiments validate the significantly lower computational overhead and superior unlearning performance of LOFT across diverse models, datasets, tasks, and applications. Code is anonymously available at https://anonymous.4open.science/r/4352/.
format Preprint
id arxiv_https___arxiv_org_abs_2601_22456
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Machine Unlearning in Low-Dimensional Feature Subspace
Fang, Kun
Tao, Qinghua
Liu, Junxu
Xiao, Yaxin
Ye, Qingqing
Sun, Jian
Hu, Haibo
Machine Learning
Artificial Intelligence
Machine Unlearning (MU) aims at removing the influence of specific data from a pretrained model while preserving performance on the remaining data. In this work, a novel perspective for MU is presented upon low-dimensional feature subspaces, which gives rise to the potentials of separating the remaining and forgetting data herein. This separability motivates our LOFT, a method that proceeds unlearning in a LOw-dimensional FeaTure subspace from the pretrained model skithrough principal projections, which are optimized to maximally capture the information of the remaining data and meanwhile diminish that of the forgetting data. In training, LOFT simply optimizes a small-size projection matrix flexibly plugged into the pretrained model, and only requires one-shot feature fetching from the pretrained backbone instead of repetitively accessing the raw data. Hence, LOFT mitigates two critical issues in mainstream MU methods, i.e., the privacy leakage risk from massive data reload and the inefficiency of updates to the entire pretrained model. Extensive experiments validate the significantly lower computational overhead and superior unlearning performance of LOFT across diverse models, datasets, tasks, and applications. Code is anonymously available at https://anonymous.4open.science/r/4352/.
title Machine Unlearning in Low-Dimensional Feature Subspace
topic Machine Learning
Artificial Intelligence
url https://arxiv.org/abs/2601.22456