Energy exchange among base stations in a Cellular Network through the Smart Grid

2014 IEEE International Conference on Communications (ICC) Pub Date : 2014-08-28 DOI:10.1109/ICC.2014.6883952

J. Leithon, Teng Joon Lim, Sumei Sun

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引用次数: 34

Abstract

In this paper, we study the problem of minimizing the energy cost incurred by a Cellular Network Operator (CNO) in a Smart Grid (SG) environment. We consider a CNO that deploys several Cellular Base Stations (CBS) to serve a given geographical area. Each CBS is equipped with a limited-capacity battery and can be powered either by the SG or by a renewable-energy (RE) harvester. Given this topology, two-way energy flow is allowed between each CBS and the SG and between any pair of CBSs in the network through the SG. The space-time-dependent energy-buying and energy-sharing costs and the energy-selling prices are made known to the CNO in advance. Therefore, in order to minimize the total cost incurred by the CNO, we find the optimal energy-management strategy by solving a constrained optimization problem. The proposed strategy ensures that the instantaneous energy demand of each CBS and the constraints imposed by each battery are satisfied at every point in time. We evaluate the performance of the proposed solution using simulations. Our results show that a significant cost reduction can be achieved by implementing the proposed strategy.

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通过智能电网实现蜂窝网络中基站之间的能量交换

本文研究了智能电网环境下蜂窝网络运营商(CNO)的能量成本最小化问题。我们考虑部署多个蜂窝基站(CBS)来服务给定地理区域的CNO。每个CBS都配备了一个容量有限的电池，可以由SG或可再生能源(RE)收集器供电。在这种拓扑结构下，每个CBS和SG之间以及网络中任何一对CBS通过SG之间都允许双向能量流。能源购买成本和能源共享成本以及能源销售价格的时空依赖性是事先为CNO所知的。因此，为了使CNO的总成本最小，我们通过求解约束优化问题找到最优的能量管理策略。该策略保证了每个CBS的瞬时能量需求和每个电池施加的约束在每个时间点都得到满足。我们使用模拟来评估所提出的解决方案的性能。我们的研究结果表明，通过实施所提出的策略，可以显著降低成本。

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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2014 IEEE International Conference on Communications (ICC)

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