空中接入网络计算卸载的分布式稳健优化

Guanwang Jiang, Ziye Jia, Lijun He, Chao Dong, Qihui Wu, Zhu Han
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引用次数: 0

摘要

随着用于数据卸载和计算的多用户迅速增加,在偏远地区保证服务质量(QoS)面临挑战。为应对这一挑战,将空中接入网络(AAN)与多接入边缘计算(MEC)设备相结合,提供高 QoS 的计算服务是一种很有前景的方法。然而,由于任务的数据量不确定,优化卸载决策和空中资源的工作十分棘手。因此,本文考虑利用 AAN 为不确定任务提供 MEC 服务。具体来说,我们基于历史数据构建不确定性集,以描述不确定任务的可能概率分布。然后,基于构建的不确定性集,我们提出了一个分布稳健的优化问题,以最小化系统延迟。接下来,我们放松该问题,并将其重新表述为线性规划问题。相应地,我们设计了一种基于 MEC 的分布式鲁棒延迟优化算法。最后,仿真结果表明,与现有文献中的其他基准机制相比,所提出的算法在减少系统延迟和最小化能源消耗之间实现了出色的平衡。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Distributionally Robust Optimization for Computation Offloading in Aerial Access Networks
With the rapid increment of multiple users for data offloading and computation, it is challenging to guarantee the quality of service (QoS) in remote areas. To deal with the challenge, it is promising to combine aerial access networks (AANs) with multi-access edge computing (MEC) equipments to provide computation services with high QoS. However, as for uncertain data sizes of tasks, it is intractable to optimize the offloading decisions and the aerial resources. Hence, in this paper, we consider the AAN to provide MEC services for uncertain tasks. Specifically, we construct the uncertainty sets based on historical data to characterize the possible probability distribution of the uncertain tasks. Then, based on the constructed uncertainty sets, we formulate a distributionally robust optimization problem to minimize the system delay. Next,we relax the problem and reformulate it into a linear programming problem. Accordingly, we design a MEC-based distributionally robust latency optimization algorithm. Finally, simulation results reveal that the proposed algorithm achieves a superior balance between reducing system latency and minimizing energy consumption, as compared to other benchmark mechanisms in the existing literature.
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