التفاصيل البيبلوغرافية
| العنوان: |
Construction of Lightweight Authenticated Joint Arithmetic Computation for 5G IoT Networks. |
| المؤلفون: |
Hsu, Chingfang, Harn, Lein, Xia, Zhe, Cui, Jianqun, Chen, Jingxue |
| المصدر: |
Computer Journal; Jan2023, Vol. 66 Issue 1, p208-220, 13p |
| مصطلحات موضوعية: |
5G networks, LIGHTWEIGHT construction, ARITHMETIC, TELECOMMUNICATION systems, MEMBERSHIP functions (Fuzzy logic), QUANTUM cryptography, CRYPTOGRAPHY |
| مستخلص: |
The next generation of Internet of Things (IoT) networks and mobile communications (5G IoT networks) has the particularity of being heterogeneous, therefore, it has very strong ability to compute, store, etc. Group-oriented applications demonstrate its potential ability in 5G IoT networks. One of the main challenges for secure group-oriented applications (SGA) in 5G IoT networks is how to secure communication and computation among these heterogeneous devices. Conventional protocols are not suitable for SGA in 5G IoT networks since multiparty joint computation in this environment requires lightweight communication and computation overhead. Furthermore, the primary task of SGA is to securely transmit various types of jointly computing data. Hence, membership authentication and secure multiparty joint arithmetic computation become two fundamental security services in SGA for 5G IoT networks. The membership authentication allows communication entities to authenticate their communication partners and the multiparty joint computations allow a secret output to be shared among all communication entities. The multiparty joint computation result can be used to protect exchange information in the communication or be used as a result that all users jointly compute by using their secret inputs. A novel construction of computation/communications-efficient membership authenticated joint arithmetic computation is proposed in this paper for 5G IoT networks, which not only integrates the function of membership authentication and joint arithmetic computation but also realizes both computation and communication efficiency on each group member side. Our protocol is secure against inside attackers and outside attackers, and also meets all the described security goals. Meanwhile, in this construction the privacy of tokens can be well protected so tokens can be reused multiple times. This proposal is noninteractive and can be easily extended to joint arithmetic computation with any number of inputs. Hence, our design has more attraction for lightweight membership authenticated joint arithmetic computation in 5G IoT networks. [ABSTRACT FROM AUTHOR] |
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