Privacy Enhanced Fast MutualAuthentication in 5G Network UsingIdentity Based Encryption

Mohsin Khan, Valtteri Niemi
2017 Journal of ICT Standardization  
Subscription privacy of a user has been a historical concern with all the previous generation mobile networks, namely, GSM, UMTS, and LTE. While a little improvement have been achieved in securing the privacy of the long-term identity of a subscriber, the so called IMSI catchers are still in existence even in the LTE and advanced LTE networks. Proposals have been published to tackle this problem in 5G based on pseudonyms, and different public-key technologies. This paper looks into the problem
more » ... f concealing long-term identity of a subscriber and presents a protocol based on identity based encryption (IBE) to tackle it. The proposed solution can be extended to a mutual authentication and key agreement protocol between a serving network (SN) and a user equipment (UE). We name the protocol PEFMA (privacy enhanced fast mutual authentication). The SN does not need to connect with the home network (HN) on every PEFMA run. In PEFMA, both the user equipment (UE) and the SN has public keys. A UE sends the IMSI after encrypting it using the SN's public key. Since both the UE and SN have public keys, PEFMA can run without contacting the HN. A qualitative comparison of different techniques show that our solution is competitive for securing the long-term identity privacy of a user in the 5G network. Privacy Enhanced Fast Mutual Authentication in 5G Network 71 1. The SN makes an IMSI Inquiry to the UE. 2. The UE computes e snid = g(e hnid , snid ||ET)
doi:10.13052/jicts2245-800x.514 fatcat:rmb5o3wjonanphfdnbgqfbig44