Service time prediction based dynamic resource allocation for device-to-device communication underlaying cellular networks

Jun Zheng, Renpeng Chen, Yuan Zhang
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引用次数: 10

Abstract

Resource allocation is a critical issue in device-to-device (D2D) communication underlying cellular networks. Existing work only considers static resource allocation, which cannot well address the dynamic resource allocation problem in a real cellular network. This paper studies dynamic resource allocation for D2D communication and proposes a service time prediction based dynamic resource allocation mechanism for a cellular network system. The proposed allocation mechanism considers different service types, and introduces the concept of "utility" as a metric to reflect the performance of a user or the system, and takes into account service time prediction in spectral resource allocation. Specifically, it enables the base station to predict the service time of a new user and the remaining service time of existing users in the system, and take into account the predicted service time and remaining service time in calculating the utility gain caused by a new user. Based on the estimated utility gain, the base station will select the physical resource block (PRB) with the largest utility gain every time it allocates a PRB to the new user. Simulation results show that the proposed dynamic allocation mechanism can significantly improve the system performance in terms of the system utility and the number of users successfully admitted to the system.
基于服务时间预测的蜂窝网络设备间通信动态资源分配
资源分配是蜂窝网络中设备到设备(D2D)通信的关键问题。现有的工作只考虑静态资源分配,不能很好地解决实际蜂窝网络中的动态资源分配问题。研究了D2D通信的动态资源分配问题,提出了一种基于服务时间预测的蜂窝网络系统动态资源分配机制。该分配机制考虑了不同的服务类型,引入了“效用”的概念作为反映用户或系统性能的指标,并在频谱资源分配中考虑了服务时间预测。具体而言,它使基站能够预测系统中新用户的服务时间和现有用户的剩余服务时间,并在计算新用户带来的效用增益时考虑到预测的服务时间和剩余服务时间。在每次向新用户分配物理资源块(PRB)时,基站将根据估计的效用增益选择效用增益最大的物理资源块(PRB)。仿真结果表明,所提出的动态分配机制可以显著提高系统的性能,包括系统效用和成功接入系统的用户数量。
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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