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Auteurs principaux: Wang, Yenan, Chiasserini, Carla Fabiana, Schiller, Elad Michael
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2603.02969
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author Wang, Yenan
Chiasserini, Carla Fabiana
Schiller, Elad Michael
author_facet Wang, Yenan
Chiasserini, Carla Fabiana
Schiller, Elad Michael
contents Federated learning (FL) enables collaborative training of machine learning models without sharing sensitive client data, making it a cornerstone for privacy-critical applications. However, FL faces the dual challenge of ensuring learning quality and robust privacy protection while keeping resource consumption low, particularly when using computationally expensive techniques such as homomorphic encryption (HE). In this work, we enhance an FL process that preserves privacy using HE by integrating it with synthetic data generation and an interleaving strategy. Specifically, our solution, named Alternating Federated Learning (Alt-FL), consists of alternating between local training with authentic data (authentic rounds) and local training with synthetic data (synthetic rounds) and transferring the encrypted and plaintext model parameters on authentic and synthetic rounds (resp.). Our approach improves learning quality (e.g., model accuracy) through datasets enhanced with synthetic data, preserves client data privacy via HE, and keeps manageable encryption and decryption costs through our interleaving strategy. We evaluate our solution against data leakage attacks, such as the DLG attack, demonstrating robust privacy protection. Also, Alt-FL provides 13.4% higher model accuracy and decreases HE-related costs by up to 48% with respect to Selective HE.
format Preprint
id arxiv_https___arxiv_org_abs_2603_02969
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Integrating Homomorphic Encryption and Synthetic Data in FL for Privacy and Learning Quality
Wang, Yenan
Chiasserini, Carla Fabiana
Schiller, Elad Michael
Machine Learning
Federated learning (FL) enables collaborative training of machine learning models without sharing sensitive client data, making it a cornerstone for privacy-critical applications. However, FL faces the dual challenge of ensuring learning quality and robust privacy protection while keeping resource consumption low, particularly when using computationally expensive techniques such as homomorphic encryption (HE). In this work, we enhance an FL process that preserves privacy using HE by integrating it with synthetic data generation and an interleaving strategy. Specifically, our solution, named Alternating Federated Learning (Alt-FL), consists of alternating between local training with authentic data (authentic rounds) and local training with synthetic data (synthetic rounds) and transferring the encrypted and plaintext model parameters on authentic and synthetic rounds (resp.). Our approach improves learning quality (e.g., model accuracy) through datasets enhanced with synthetic data, preserves client data privacy via HE, and keeps manageable encryption and decryption costs through our interleaving strategy. We evaluate our solution against data leakage attacks, such as the DLG attack, demonstrating robust privacy protection. Also, Alt-FL provides 13.4% higher model accuracy and decreases HE-related costs by up to 48% with respect to Selective HE.
title Integrating Homomorphic Encryption and Synthetic Data in FL for Privacy and Learning Quality
topic Machine Learning
url https://arxiv.org/abs/2603.02969