Related papers: FedBGS: A Blockchain Approach to Segment Gossip Learning in Decentralized Systems

FedBGS: A Blockchain Approach to Segment Gossip Learning in Decentralized Systems

URL: http://arxiv.org/abs/2602.01185v1
Date: Sun, 01 Feb 2026 12:17:14 GMT
Title: FedBGS: A Blockchain Approach to Segment Gossip Learning in Decentralized Systems
Authors: Fabio Turazza, Marcello Pietri, Marco Picone, Marco Mamei,
Abstract summary: Privacy-Preserving Federated Learning (PPFL) is a Decentralized machine learning paradigm that enables multiple participants to collaboratively train a global model without sharing their data.<n>This paper introduces FedBGS, a fully Decentralized Federated-based framework that leverages all types of devices through Federated Analytics.
Score: 4.724825031148412
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Privacy-Preserving Federated Learning (PPFL) is a Decentralized machine learning paradigm that enables multiple participants to collaboratively train a global model without sharing their data with the integration of cryptographic and privacy-based techniques to enhance the security of the global system. This privacy-oriented approach makes PPFL a highly suitable solution for training shared models in sectors where data privacy is a critical concern. In traditional FL, local models are trained on edge devices, and only model updates are shared with a central server, which aggregates them to improve the global model. However, despite the presence of the aforementioned privacy techniques, in the classical Federated structure, the issue of the server as a single-point-of-failure remains, leading to limitations both in terms of security and scalability. This paper introduces FedBGS, a fully Decentralized Blockchain-based framework that leverages Segmented Gossip Learning through Federated Analytics. The proposed system aims to optimize blockchain usage while providing comprehensive protection against all types of attacks, ensuring both privacy, security and non-IID data handling in Federated environments.

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