Publikation
DDoS Attacks in Communication: Analysis and Mitigation of Unreliable Clients in Federated Learning
Sogo Pierre Sanon; Rekha Reddy; Christoph Lipps (Hrsg.)
IEEE Consumer Communications and Networking Conference (CCNC-2024), January 6-9, NV, USA, IEEE, 2/2024.
Zusammenfassung
In communication, network traffic prediction is the process of forecasting future network traffic based on historical data. This information can be used to improve network quality, optimize resource allocation, and prevent attacks. With the advent of Federated Learning (FL), the ability to harness insights from distributed data sources while preserving data privacy has revolutionized this field. However, the presence of malicious or unreliable data sources can impact the performance and reliability of the collaboratively trained Machine Learning (ML)
models. One such situation is the presence of Distributed Denial of Service (DDoS) traffic data in FL training. In this work, the analysis and mitigation of clients with DDoS traffic data in FL for network traffic prediction are performed. The negative impact of such data on the performance of the global model is presented. Several mitigation techniques, such as client selection, data filtering, and model aggregation, are discussed. The results indicate that the Median aggregation technique is able to mitigate the effect of DDoS data. It is also suited to real-time scenarios as there is no need for client selection or data filtering, making it fast.
Projekte
AI-NET-ANTILLAS - Accellerating digital transformation in europe by Intelligent NETwork automation - Automated Network Telecom Infrastructure with inteLLigent Autonomous Systems,
AI-NET-PROTECT - Accellerating digital transformation in europe by Intelligent NETwork automation - Providing Resilient & secure networks [Operating on Trusted Equipment] to CriTical infrastructures
AI-NET-PROTECT - Accellerating digital transformation in europe by Intelligent NETwork automation - Providing Resilient & secure networks [Operating on Trusted Equipment] to CriTical infrastructures