Abdel-Malek, Mai A.Sayed, Muhammad M.Azab, Mohamed2022-04-112022-04-112022-04-02Abdel-Malek, M.A.; Sayed, M.M.; Azab, M. UAV-Based Privacy-Preserved Trustworthy Seamless Service Agility for NextG Cellular Networks. Sensors 2022, 22, 2756.http://hdl.handle.net/10919/109627Next Generation cellular networks are expected to offer better service quality, secure and reliable service provisioning, and more cooperative operation even in unexpected stressful situations. Service provider cooperation can facilitate reliable service provisioning and extended coverage in disasters situations or partial network failures. However, the current 4G and 5G standards do not offer security and privacy-friendly support for inter-operator agility and service mobility, a key enabler for such cooperation. The situation becomes more critical in presence of attackers, where establishing trust relationships becomes very complicated. This paper presents a novel UAV-assisted user-agility support framework that enables trustworthy seamless service migration in a zero-trust environment. The proposed framework facilitates temporal authentication-authority delegation and proxying to enable preservice, all-party mutual authentication. The framework is implemented and tested on top of the srsRAN open-source 4G/5G software stack. Experiments showed that the presented framework managed to facilitate effective and efficient trustworthy service migration between heterogeneous service provider networks.application/pdfenCreative Commons Attribution 4.0 Internationalservice agilityauthenticationsecure wireless communications5G and NextGprivacyUAV assisted trust and portingUAV-Based Privacy-Preserved Trustworthy Seamless Service Agility for NextG Cellular NetworksArticle - Refereed2022-04-11Sensorshttps://doi.org/10.3390/s22072756