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基于双向拍卖的云原生网络资源可信分配协议
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Abstract:
在万物智联的6G云原生网络架构中,用户设备通过接入边缘云来接入网络,由于边缘侧的多运营商、多异构接入、多异质传输等带来了云资源分配有效性、安全性和传输可靠性的挑战;针对以上问题,通过学习比较已有策略,本文设计了基于双向拍卖的边缘计算资源可信分配协议,引入双向拍卖的算法到边缘计算领域改善性能问题。在边缘服务器之间合理分配计算、存储、通信等任务,在用户终端附近执行数据处理过程从而有效提高云资源分配的安全性、可靠性,解决资源利用率问题。最后与已有方案对比分析各项性能。
In the 6G cloud native network architecture of IoE, the user device accesses the network by access-ing the edge cloud. Due to the multi-operator, multi-heterogeneous access and multi-hetero- geneous transmission on the edge side, the cloud resource allocation efficiency, security and transmission reliability are challenged. To solve the above problems, by learning and comparing the existing strategies, this paper designs the trusted allocation protocol of edge computing resources based on double auction, introduces the algorithm of double auction into the edge computing field to improve the performance. Computing, storage, and communication tasks are reasonably allocated among edge servers, and data processing is performed near user terminals to effectively improve the security and reliability of cloud resource allocation and solve resource utilization problems. Finally, the performance is compared with the existing schemes.
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