Publication
IEEE Future Networks World Forum 2023
N/A (Hrsg.)
IEEE Future Networks World Forum (FNWF-2023), IEEE, 11/2023.
Abstract
As wireless mobile communication continues to evolve, the demand for efficient and accurate Machine Learning (ML) models to manage different use cases has grown substantially. Distributed Collaborative Machine Learning (DCML) techniques offer a promising solution by enabling multiple devices/entities to collaboratively train an ML model without having to share their data with each other. Although these methods can enhance user data privacy, many researches have shown their limitations. One way to ensure privacy in DCML techniques is to use Differential Privacy (DP). DP is a framework that offers mathematically guaranteed privacy. This research paper presents an investigation into the integration of DP mechanisms within DCML frameworks for wireless mobile communication environments. It evaluates the performance of DP and DCML techniques in various aspects of wireless mobile communication, including network traffic analysis, and network slicing. Through experimental simulations, the impact of DP on model performance, convergence rate, and computation overhead is analyzed. The results provide insights into the trade-offs between privacy preservation and ML model effectiveness. This research contributes to the understanding of how the combination of DP and DCML methods can be effectively integrated into wireless mobile communication. This is a preprint of the publication which has been presented at the IEEE Future Networks World Forum 2023.
Projekte
AI-NET-PROTECT - Accellerating digital transformation in europe by Intelligent NETwork automation - Providing Resilient & secure networks [Operating on Trusted Equipment] to CriTical infrastructures,
ALPAKA - Agile Lösungen für Produktionsautomaten mittels Kommunikationsabsicherung
ALPAKA - Agile Lösungen für Produktionsautomaten mittels Kommunikationsabsicherung