计算机科学
斯塔克伯格竞赛
干扰
服务器
边缘计算
计算机网络
频道(广播)
资源配置
分布式计算
移动边缘计算
GSM演进的增强数据速率
电信
物理
数学
数理经济学
热力学
作者
Yuan Xinwang,Zhidong Xie,Xin Tan
标识
DOI:10.1109/msn57253.2022.00151
摘要
In edge computing, terminal devices can offload intensive computing tasks to edge servers to obtain high-performance computing services with low latency. Introducing unmanned aerial vehicles (UAVs) as relays can improve transmission efficiency. However, with the continuous expansion of UAVs' scale, resource management issues need to be solved urgently. In this paper, we study the anti-jamming channel assignment problem in the presence of multiple intelligent jammers for UAV-enabled edge computing scenarios. Each user is an offload-receive (or offload-relay-receive) pair of a computing task. Considering the mutual interference between users and the malicious jamming from smart jammers, we construct a multi-layer Stackelberg game model: the jammer is the leader, and the user is the follower. The user and the jammer consider their utility respectively, achieve the equilibrium state through iterations, and then obtain the optimal channel access scheme. Finally, we analyze the convergence and superiority of the proposed algorithm through simulation and performance comparison.
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