Energy Efficiency Optimization for UAV-assisted mMTC Networks with Altitude Differences

Zhiruo Yan, Zhi Zhang, Yue Meng
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引用次数: 2

Abstract

With the increase of the number of intelligent users, massive machine-type communications (mMTC), which can accommodate massive users, will play an important role. Unmanned aerial vehicle (UAV) has attracted a lot of attention due to the high mobility. However, both machine-type communications devices (MTCDs) and UAVs are battery-powered, therefore they have limited energy storage. In this paper, we focus on energy efficiency optimization in UAV-assisted mMTC networks with altitude differences. Considering the altitude differences of MTCDs, the Euclidean distances between MTCDs are in three dimensions. Besides, the altitudes of clustering centers are different, which results in the different altitudes of the hovering positions. To optimize the energy efficiency of MTCDs, a hovering positions selection algorithm based on three-dimensional clustering (3D-HPSA) is proposed. Meanwhile, a Discrete Cuckoo Search Algorithm with Genetic Mutation Operators (GMO-DCSA) is proposed to optimize the flight distance and the energy efficiency of UAV. Simulation results show that the proposed algorithms have superior performances compared with the existing works.
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具有高度差异的无人机辅助mMTC网络能量效率优化
随着智能用户数量的增加,能够容纳海量用户的海量机式通信(mMTC)将发挥重要作用。无人机(UAV)因其高机动性而受到广泛关注。然而,机器型通信设备(mtcd)和无人机都是电池供电的,因此它们的能量存储有限。在本文中,我们重点研究了具有高度差异的无人机辅助mMTC网络的能效优化问题。考虑到mtcd的高度差异,mtcd之间的欧氏距离是三维的。此外,聚类中心的高度不同,导致悬停位置的高度不同。为了优化mtcd的能量效率,提出了一种基于三维聚类的悬停位置选择算法(3D-HPSA)。同时,提出了一种带有基因突变算子的离散布谷鸟搜索算法(GMO-DCSA)来优化无人机的飞行距离和能效。仿真结果表明,与现有算法相比,所提算法具有更好的性能。
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