Title :
LTE/SAE Security Issues on 4G Wireless Networks
Author :
Bikos, Anastasios N. ; Sklavos, Nicolas
Author_Institution :
Inf. Dept., Univ. of Patras, Patras, Greece
Abstract :
The authors give an overview on the state of the art of potential security issues that occur in the deployment of the LTE/SAE (Long-Term Evolution/System Architecture Evolution) protocol in emerging 4G wireless technologies. Although security concerns and challenges in wireless networks will remain a hot topic in the future, the LTE/SAE standard could adapt to these rising challenges, becoming more robust and secure. By looking at the authentication and ciphering algorithms, such as EAP-AKA (Extensible Authentication Protocol for Authentication and Key Agreement), currently operating within the LTE protocol, the authors analyze several vulnerabilities in LTE/SAE security architecture - specifically, insecure AKA key derivation procedures and the lack of fast reauthentications during handovers.
Keywords :
4G mobile communication; Long Term Evolution; cryptographic protocols; mobility management (mobile radio); 4G wireless networks; EAP-AKA; LTE/SAE protocol; LTE/SAE security architecture; Long Term Evolution; authentication algorithm; ciphering algorithm; extensible authentication protocol for authentication and key agreement; handovers; insecure AKA key derivation procedures; system architecture evolution; Algorithm design and analysis; Authentication; Computer architecture; Computer security; Encryption; Long Term Evolution; Mobile communication; Protocols; 3G; 3GPP; 4G wireless networks; EAP-AKA; Extensible Authentication Protocol for Authentication and Key Agreement; LTE; LTE/SAE; Long-Term Evolution; Long-Term Evolution/System Architecture Evolution; standards;
Journal_Title :
Security & Privacy, IEEE
DOI :
10.1109/MSP.2012.136
