Over-the-Air Fair Federated Learning via Multi-Objective Optimization

Shayan Mohajer Hamidi; Ali Bereyhi; Saba Asaad; H. Vincent Poor

doi:10.1109/LCOMM.2025.3567387

Over-the-Air Fair Federated Learning via Multi-Objective Optimization

Shayan Mohajer Hamidi, Ali Bereyhi, Saba Asaad, H. Vincent Poor

Research output: Contribution to journal › Article › peer-review

Abstract

In federated learning (FL), heterogeneity among the local dataset distributions of clients can result in unsatisfactory performance for some, leading to an unfair model. To address this challenge, we propose an over-the-air fair federated learning algorithm (OTA-FFL), which leverages over-the-air computation to train fair FL models. By formulating FL as a multi-objective minimization problem, we introduce a modified Chebyshev approach to compute adaptive weighting coefficients for gradient aggregation in each communication round. To enable efficient aggregation over the multiple access channel, we derive analytical solutions for the optimal transmit scalars at the clients and the de-noising scalar at the parameter server. Extensive experiments demonstrate the superiority of OTA-FFL in achieving fairness and robust performance compared to existing methods.

Original language	English (US)
Journal	IEEE Communications Letters
DOIs	https://doi.org/10.1109/LCOMM.2025.3567387
State	Accepted/In press - 2025

All Science Journal Classification (ASJC) codes

Modeling and Simulation
Computer Science Applications
Electrical and Electronic Engineering

Keywords

fairness
Federated learning
multi-objective optimization
wireless communications

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10.1109/LCOMM.2025.3567387

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title = "Over-the-Air Fair Federated Learning via Multi-Objective Optimization",

abstract = "In federated learning (FL), heterogeneity among the local dataset distributions of clients can result in unsatisfactory performance for some, leading to an unfair model. To address this challenge, we propose an over-the-air fair federated learning algorithm (OTA-FFL), which leverages over-the-air computation to train fair FL models. By formulating FL as a multi-objective minimization problem, we introduce a modified Chebyshev approach to compute adaptive weighting coefficients for gradient aggregation in each communication round. To enable efficient aggregation over the multiple access channel, we derive analytical solutions for the optimal transmit scalars at the clients and the de-noising scalar at the parameter server. Extensive experiments demonstrate the superiority of OTA-FFL in achieving fairness and robust performance compared to existing methods.",

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author = "Hamidi, {Shayan Mohajer} and Ali Bereyhi and Saba Asaad and Poor, {H. Vincent}",

note = "Publisher Copyright: {\textcopyright} 1997-2012 IEEE.",

year = "2025",

doi = "10.1109/LCOMM.2025.3567387",

language = "English (US)",

journal = "IEEE Communications Letters",

issn = "1089-7798",

publisher = "Institute of Electrical and Electronics Engineers Inc.",

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T1 - Over-the-Air Fair Federated Learning via Multi-Objective Optimization

AU - Hamidi, Shayan Mohajer

AU - Bereyhi, Ali

AU - Asaad, Saba

AU - Poor, H. Vincent

PY - 2025

Y1 - 2025

N2 - In federated learning (FL), heterogeneity among the local dataset distributions of clients can result in unsatisfactory performance for some, leading to an unfair model. To address this challenge, we propose an over-the-air fair federated learning algorithm (OTA-FFL), which leverages over-the-air computation to train fair FL models. By formulating FL as a multi-objective minimization problem, we introduce a modified Chebyshev approach to compute adaptive weighting coefficients for gradient aggregation in each communication round. To enable efficient aggregation over the multiple access channel, we derive analytical solutions for the optimal transmit scalars at the clients and the de-noising scalar at the parameter server. Extensive experiments demonstrate the superiority of OTA-FFL in achieving fairness and robust performance compared to existing methods.

AB - In federated learning (FL), heterogeneity among the local dataset distributions of clients can result in unsatisfactory performance for some, leading to an unfair model. To address this challenge, we propose an over-the-air fair federated learning algorithm (OTA-FFL), which leverages over-the-air computation to train fair FL models. By formulating FL as a multi-objective minimization problem, we introduce a modified Chebyshev approach to compute adaptive weighting coefficients for gradient aggregation in each communication round. To enable efficient aggregation over the multiple access channel, we derive analytical solutions for the optimal transmit scalars at the clients and the de-noising scalar at the parameter server. Extensive experiments demonstrate the superiority of OTA-FFL in achieving fairness and robust performance compared to existing methods.

KW - fairness

KW - Federated learning

KW - multi-objective optimization

KW - wireless communications

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JO - IEEE Communications Letters

JF - IEEE Communications Letters

ER -

Over-the-Air Fair Federated Learning via Multi-Objective Optimization

Abstract

All Science Journal Classification (ASJC) codes

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