Game-Theoretic Power Control for Energy Constrained Machine Type Communications

2019 15th Annual Conference on Wireless On-demand Network Systems and Services (WONS) Pub Date : 1900-01-01 DOI:10.23919/WONS.2019.8795499

K. Mehmood, M. T. Niaz, H. Kim

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引用次数: 1

Abstract

Machine type communications (MTC) unleashes a broad range of applications ranging from mission-critical services to massively connected autonomous nodes. The cellular systems will help in enabling such nodes to play a critical role in future networks. A coexisting cellular scenario for traditional and MTC devices is considered and the need for an energy efficient power control mechanism for MTC nodes is investigated. Reliability is a major requirement for MTC devices (MTCDs) which is the prime utility to be considered along with the power consumed by each user device. For a dense network environment, the MTC power control problem is modeled as a mean field game (MFG) and system utility is modeled in terms of the interference and reliability condition. The proposed MFG is solved using the finite difference method to obtain an optimal power control policy for MTCDs. Simulation results identify the considered scheme a low complexity alternative for a transmit power control mechanism for MTC devices in the coexisting network.

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能量约束型机器通信的博弈论功率控制

机器类型通信(MTC)释放了广泛的应用，从关键任务服务到大规模连接的自治节点。蜂窝系统将有助于使这些节点在未来的网络中发挥关键作用。考虑了传统和MTC设备共存的蜂窝场景，并研究了MTC节点对节能功率控制机制的需求。可靠性是MTC设备(mtcd)的主要要求，这是与每个用户设备消耗的功率一起考虑的主要实用程序。对于密集网络环境，将MTC功率控制问题建模为平均场博弈(MFG)，并根据干扰和可靠性条件对系统效用进行建模。利用有限差分法求解该问题，得到mtcd的最优功率控制策略。仿真结果表明，所考虑的方案是共存网络中MTC设备发射功率控制机制的低复杂度替代方案。

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2019 15th Annual Conference on Wireless On-demand Network Systems and Services (WONS)

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