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Main Authors: Li, Yue, Chu, Mingmin, Yang, Xilei, Xiao, Da, Xu, Ziqi, Shao, Wei, Song, Qipeng, Li, Hui
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.22589
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author Li, Yue
Chu, Mingmin
Yang, Xilei
Xiao, Da
Xu, Ziqi
Shao, Wei
Song, Qipeng
Li, Hui
author_facet Li, Yue
Chu, Mingmin
Yang, Xilei
Xiao, Da
Xu, Ziqi
Shao, Wei
Song, Qipeng
Li, Hui
contents Federated learning (FL) enables collaborative model training without centralizing raw data, but privacy regulations such as the right to be forgotten require FL systems to remove the influence of previously used training data upon request. Retraining a federated model from scratch is prohibitively expensive, motivating federated unlearning (FU). However, existing FU methods suffer from high unlearning overhead, utility degradation caused by entangled knowledge, and unintended relearning during post-unlearning recovery. In this paper, we propose FedCARE, a unified and low overhead FU framework that enables conflict-aware unlearning and relearning-resistant recovery. FedCARE leverages gradient ascent for efficient forgetting when target data are locally available and employs data free model inversion to construct class level proxies of shared knowledge. Based on these insights, FedCARE integrates a pseudo-sample generator, conflict-aware projected gradient ascent for utility preserving unlearning, and a recovery strategy that suppresses rollback toward the pre-unlearning model. FedCARE supports client, instance, and class level unlearning with modest overhead. Extensive experiments on multiple datasets and model architectures under both IID and non-IID settings show that FedCARE achieves effective forgetting, improved utility retention, and reduced relearning risk compared to state of the art FU baselines.
format Preprint
id arxiv_https___arxiv_org_abs_2601_22589
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle FedCARE: Federated Unlearning with Conflict-Aware Projection and Relearning-Resistant Recovery
Li, Yue
Chu, Mingmin
Yang, Xilei
Xiao, Da
Xu, Ziqi
Shao, Wei
Song, Qipeng
Li, Hui
Machine Learning
Artificial Intelligence
Federated learning (FL) enables collaborative model training without centralizing raw data, but privacy regulations such as the right to be forgotten require FL systems to remove the influence of previously used training data upon request. Retraining a federated model from scratch is prohibitively expensive, motivating federated unlearning (FU). However, existing FU methods suffer from high unlearning overhead, utility degradation caused by entangled knowledge, and unintended relearning during post-unlearning recovery. In this paper, we propose FedCARE, a unified and low overhead FU framework that enables conflict-aware unlearning and relearning-resistant recovery. FedCARE leverages gradient ascent for efficient forgetting when target data are locally available and employs data free model inversion to construct class level proxies of shared knowledge. Based on these insights, FedCARE integrates a pseudo-sample generator, conflict-aware projected gradient ascent for utility preserving unlearning, and a recovery strategy that suppresses rollback toward the pre-unlearning model. FedCARE supports client, instance, and class level unlearning with modest overhead. Extensive experiments on multiple datasets and model architectures under both IID and non-IID settings show that FedCARE achieves effective forgetting, improved utility retention, and reduced relearning risk compared to state of the art FU baselines.
title FedCARE: Federated Unlearning with Conflict-Aware Projection and Relearning-Resistant Recovery
topic Machine Learning
Artificial Intelligence
url https://arxiv.org/abs/2601.22589