Joint Task Offloading and VM Placement for Edge Computing with Time-Sequential IIoT Applications

Mingzhu Qiang, Changyan Yi, Juan Li, Kun Zhu, Jun Cai
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引用次数: 1

Abstract

In this paper, a multi-layer edge computing frame-work for the virtual machine (VM) placement and computation offloading in industrial Internet of Things (IIoT) is proposed. Unlike most existing works, we focus on addressing the temporal dependency among tasks in an IIoT task flow, and consider that there is a stringent requirement on its completion time (including the transmission time, computation time and waiting time). For striking a balance between the system completion time and the energy consumption while satisfying the storage capacity of edge servers (ESs), completion deadline of time-sequential task flows, and placement requirements of VMs, we design a many-to-one matching game (MGVDA) to jointly determine the optimal VM placement and task offloading decisions. Finally, we prove that the resulted matching game solution is effective and stable. Simulation results examine the efficiency of the proposed MGVDA and show its superiority over the counterparts.
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基于时序IIoT应用的边缘计算联合任务卸载和虚拟机放置
针对工业物联网(IIoT)中虚拟机(VM)的放置和计算卸载问题,提出了一种多层边缘计算框架。与大多数现有工作不同,我们重点解决了IIoT任务流中任务之间的时间依赖性,并认为其完成时间(包括传输时间、计算时间和等待时间)有严格的要求。为了平衡系统完成时间和能耗,同时满足边缘服务器的存储容量、时间顺序任务流的完成期限和虚拟机的放置要求,我们设计了一个多对一的匹配博弈(MGVDA),共同确定最优的虚拟机放置和任务卸载决策。最后,我们证明了所得到的匹配博弈解是有效且稳定的。仿真结果验证了所提出的MGVDA算法的有效性,并显示了其相对于同类算法的优越性。
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