A survey on security and privacy in federated learning-based intrusion detection systems for 5G and beyond networks

The rapid growth of Internet of Things (IoT) devices and the introduction of 5G networks have created new opportunities for enhancing network services, while also introducing significant security concerns. Intrusion Detection Systems (IDS) are crucial for identifying malicious activities and unauthorized access in these environments. However, current IDS solutions face challenges such as sharing sensitive data and managing large-scale networks. Federated Learning (FL) presents a promising solution by enabling models to be trained on decentralized devices without sharing private data. This paper examines how FL can enhance IDS for IoT and 5G networks, with an emphasis on privacy and security concerns. We analyze various privacy, homomorphic encryption, and security mechanisms in FL, including Differential Privacy (DP) and secure aggregation, and their potential applications in strengthening IDS solutions. Additionally, we explore how FL contributes to the development of more secure and efficient IDS systems while addressing challenges such as data heterogeneity and security risks. Finally, we identify gaps in the existing research and propose directions for future work to enhance the robustness and practicality of FL-based IDS for IoT and 5G environments.