Online dynamic multi-user computation offloading and resource allocation for HAP-assisted MEC: an energy efficient approach

Sihan Chen, Wanchun Jiang
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Abstract

Nowadays, the paradigm of mobile computing is evolving from a centralized cloud model towards Mobile Edge Computing (MEC). In regions without ground communication infrastructure, incorporating aerial edge computing nodes into network emerges as an efficient approach to deliver Artificial Intelligence (AI) services to Ground Devices (GDs). The computation offloading and resource allocation problem within a HAP-assisted MEC system is investigated in this paper. Our goal is to minimize the energy consumption. Considering the randomness and dynamism of the task arrival of GDs and the quality of wireless communication, stochastic optimization techniques are utilized to transform the long-term dynamic optimization problem into a deterministic optimization problem. Subsequently, the problem is further decomposed into three sub-problems which can be solved in parallel. An online Energy Efficient Dynamic Offloading (EEDO) algorithm is proposed to address these problems. Then, we conduct the theoretical performance analysis for EEDO. Finally, we carry out parameter analysis and comparative experiments, demonstrating that the EEDO algorithm can effectively reduce system energy consumption while maintaining the stability of the system.
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用于 HAP 辅助 MEC 的在线动态多用户计算卸载和资源分配:一种节能方法
如今,移动计算的模式正从集中式云计算模式向移动边缘计算(MEC)演进。在没有地面通信基础设施的地区,将空中边缘计算节点纳入网络是向地面设备(GD)提供人工智能(AI)服务的有效方法。本文研究了 HAP 辅助 MEC 系统中的计算卸载和资源分配问题。我们的目标是最大限度地降低能耗。考虑到地面设备任务到达的随机性和动态性以及无线通信的质量,本文利用随机优化技术将长期动态优化问题转化为确定性优化问题。随后,该问题被进一步分解为三个可并行求解的子问题。针对这些问题,我们提出了一种在线高能效动态卸载(EEDO)算法。然后,我们对 EEDO 进行了理论性能分析。最后,我们进行了参数分析和对比实验,证明 EEDO 算法能在保持系统稳定性的同时有效降低系统能耗。
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