A Local-Ratio-Based Power Control Approach for Capacitated Access Points in Mobile Edge Computing

Qinghui Zhang, Weidong Li, Qian Su, Xuejie Zhang
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引用次数: 4

Abstract

Terminal devices (TDs) connect to networks through access points (APs) integrated into the edge server. This provides a prerequisite for TDs to upload tasks to cloud data centers or offload them to edge servers for execution. In this process, signal coverage, data transmission, and task execution consume energy, and the energy consumption of signal coverage increases sharply as the radius increases. Lower power leads to less energy consumption in a given time segment. Thus, power control for APs is essential for reducing energy consumption. Our objective is to determine the power assignment for each AP with same capacity constraints such that all TDs are covered, and the total power is minimized. We define this problem as a minimum power capacitated cover (MPCC) problem and present a minimum local ratio (MLR) power control approach for this problem to obtain accurate results in polynomial time. Power assignments are chosen in a sequence of rounds. In each round, we choose the power assignment that minimizes the ratio of its power to the number of currently uncovered TDs it contains. In the event of a tie, we pick an arbitrary power assignment that achieves the minimum ratio. We continue choosing power assignments until all TDs are covered. Finally, various experiments verify that this method can outperform another greedy-based way.
移动边缘计算中基于局域比的容量接入点功率控制方法
终端设备通过集成在边缘服务器中的接入点与网络相连。这为td将任务上传到云数据中心或将其卸载到边缘服务器执行提供了先决条件。在此过程中,信号覆盖、数据传输和任务执行都要消耗能量,且信号覆盖能耗随着半径的增大而急剧增加。功率越低,在给定时间段内能耗越低。因此,ap的功率控制对于降低能耗至关重要。我们的目标是确定具有相同容量约束的每个AP的功率分配,以便覆盖所有td,并使总功率最小化。我们将该问题定义为最小功率容量覆盖(MPCC)问题,并提出了一种最小局部比(MLR)功率控制方法,以在多项式时间内获得准确的结果。在一系列回合中选择权力分配。在每一轮中,我们选择最小化其功率与当前未覆盖的td数量之比的功率分配。在平局的情况下,我们选择一个实现最小比率的任意功率分配。我们继续选择能量分配,直到所有td都被覆盖。最后,各种实验验证了该方法优于另一种基于贪婪的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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