FedNDA: Enhancing Federated Learning with Noisy Client Detection and Robust Aggregation

FedNDA: Enhancing Federated Learning with Noisy Client Detection and Robust Aggregation

Federated Learning is a novel decentralized methodology that enables multiple clients to collaboratively train a global model while preserving the privacy of their local data. Although federated learning enhances data privacy, it faces challenges related to data quality and client behavior. A funda...

Full description

Saved in:
Bibliographic Details
Main Authors: Tuan Dung Kieu, Charles Fonbonne, Trung-Kien Tran, Thi-Lan Le, Hai Vu, Huu-Thanh Nguyen, Thanh-Hai Tran
Format: Article
Language:English
Published: European Alliance for Innovation (EAI) 2025-07-01
Series:EAI Endorsed Transactions on Industrial Networks and Intelligent Systems
Subjects:
Federated learning
Deep learning
Noisy clients
Non-IID
Class imbalance
Online Access:https://publications.eai.eu/index.php/inis/article/view/8720
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Federated Learning is a novel decentralized methodology that enables multiple clients to collaboratively train a global model while preserving the privacy of their local data. Although federated learning enhances data privacy, it faces challenges related to data quality and client behavior. A fundamental issue is the presence of noisy labels in certain clients, which damages the global model's performance. To address this problem, this paper introduces a Federated learning framework with Noisy client Detection and robust Aggregation, FedNDA. In the first stage, FedNDA detects noisy clients by analyzing the distribution of their local losses. A noisy client exhibits a loss distribution distinct from that of clean clients. To handle class imbalance issue in local data, we utilize per-class losses instead of the total loss. We then assign each client a noisiness score, calculated as the Earth Mover’s Distance between the per-class loss distribution of the client and the average distribution of all clean clients. This noisiness metric is more sensitive for detecting noisy clients compared to conventional metrics such as Euclidean distance or L1 norm. The noisiness score is subsequently transfered to and used in the server-side aggregation function to prioritize clean clients while reducing the influence of noisy clients. Experimental results demonstrate that FedNDA outperforms FedAvg and FedNoRo by 4.68% and 3.6% on the CIFAR-10 dataset, and by 10.65% and 0.48% on the ICH dataset, respectively, in a high noisy setting.
ISSN:2410-0218

Similar Items