DOI码：10.1109/MWC.2017.1600360

发表刊物：IEEE Wireless Communications

摘要：Energy and spectrum resources play significant roles in 5G communication systems. In industrial applications in the 5G era, green communications are a great challenge for sustainable development of networks. Energy harvesting technology is a promising approach to prolong network lifetime. In energy harvesting networks, nodes may replenish energy from a mobile charger to overcome variations of renewable energy. In this article, energy-rich nodes are stimulated to upload surplus energy to the mobile charger, leading to bidirectional energy flow. This creates a new paradigm wherein energy flows coexist with data flows, which gives rise to new problems in controlling the energy flows and data flows. Software defined networking enables centralized control to optimize flow scheduling. We propose an SD-EHN architecture for 5G green communications. In SD-EHN, the data plane, the energy plane, and the control plane are decoupled to support flexible energy scheduling and improve energy efficiency, thus facilitating sustainability in energy harvesting networks. A scenario with a mobile charger acting as a mobile data collector is presented to introduce an energy trading model in SD-EHN. We use stochastic inventory theory to determine the optimal energy storage levels of the nodes. A Nash bargaining game is proposed to solve the benefit allocation problem for energy trading. Numerical results indicate that SD-EHN optimizes energy utilization and saves energy.

第一作者：X. Huang, R. Yu, J. Kang, Y. Gao, S. Maharjan, S. Gjessing, Y. Zhang

论文类型：期刊论文

卷号：24

期号：4

ISSN号：1558-0687

是否译文：否

发表时间：2017-08-22