摘要
构建了量子无线通信网络模型,通过中继点两端量子信道的建立获得源端所发出的信息,实现多级量子无线网络信息的传输;基于经典认证,采用量子隐形传态和纠缠交换技术传输携带信息的量子态,实现了无线通信网络的身份认证;结合Grover量子搜索算法,在限定跳数内搜索路由度量最大的路径作为目标解径,避免了量子信道因纠缠量子对的消耗而断开,保证了成功率,降低了量子通信网络的计算量,使路由搜索快速收敛.
A quantum wireless communication network model is established. The information from source is obtained through the establishment of quantum channel at both ends of the relay points, and the trans- mission of multi-level quantum wireless network information is realized. Based on the classical certification, quantum teleportation and entanglement swapping technology are adopted to carry quantum state with information, and the identity authentication of wireless communication network is realized. Combined with Grover quantum search algorithm, the paths with maximum routing metrics in a limited hop counts are searched as the target solution path. The disconnection of quantum channel due to consumption of entan- gled quantum pairs is avoided. The success rate is guaranteed. The network computation complexity of quantum communication network is reduced, and route search is in fast convergence.
作者
范新灿
刘凯洋
温晓军
FAN Xincan LIU Kaiyang WEN Xiaojun(School of Computer Engineering, Shenzhen PolyTechnic, Shenzhen 518055, China)
出处
《量子电子学报》
CSCD
北大核心
2017年第5期581-587,共7页
Chinese Journal of Quantum Electronics
基金
广东省自然科学基金
2016A030313023
深圳市科技计划项目
JCYJ20160322114027138~~
