LAUSR

Space information network (SIN) makes it possible for any object to be connected to the Internet anywhere, even in the areas with extreme conditions, where a cellular network is not easy to deploy. Access authentication is the key to secure users’ access control in SIN, mainly to prevent illegal adversaries from getting access to SIN services. However, the highly complicated communication environment of SIN (e.g., exposed links, higher signal delay, etc.) poses a challenging issue in the design of a secure and efficient authentication scheme. Although some authentication schemes have been proposed for SIN, they are unsuitable for Internet of Things (IoT) in SIN due to the high signaling overhead and insufficient security properties. Therefore, in this paper, we design a provably secure and efficient authentication protocol, along with an efficient handover mechanism, for IoT in SIN. In our design, we introduce a new authentication system model, where the satellites are given the ability to authenticate users to avoid the online involvement of the network control center (NCC) when authenticating users, thereby reducing long authentication delay and avoiding a single point of bottleneck in NCC. Furthermore, the support of batch verification in our design can significantly enhance handover efficiency when a group of users switch to another satellite. Our further analysis shows that our scheme is secure against various attacks and can meet a variety of security requirements. In addition, performance evaluation shows the superiority of our scheme on both delay and handover efficiency compared with existing schemes.