Paper Info
Title
Optimal Switching Strategy for Heterogeneous Energy Supplying Energy-efficient Two-tier Femtocell Networks.
Abstract
Energy harvesting and sleeping strategy are the important methods to deal with the increasing grid power consumption problem. However, power supply solely from energy harvesting modules would be more likely to cause energy outage of base station (BS), and the load of sleeping BS would lead to coverage hole problem, which directly affect user's quality of service (QoS). In this paper, to achieve the trade-off between grid power consumption and user's QoS for each tier, optimal joint of ON/OFF mode of a BS and power source switching strategies are designed for two-tier femtocell networks, which are powered by the cooperation of the harvested energy and grid power. Then, exploiting stochastic geometry and random walk theory, BS availability and availability region are characterized with the proposed strategies. Moreover, the relationships among BS availability, battery capacity of grid power and cut-off energy level are exploited to verify the proposed strategies. By numerical simulations, we find that when energy storage capacity achieves a certain value, the effect of grid power battery capacity on availability almost vanishes especially in femto tier. So these redundant grid power can be saved when the stored energy in battery meets current traffic requirement.
Year
DOI
Venue
2017
10.1007/s11277-016-3872-x
Wireless Personal Communications
Keywords
Field
DocType
Two-tier femtocell networks, Energy harvesting, Switching strategy, Stochastic processes, Energy efficiency
Energy storage,Femto-,Base station,Femtocell,Efficient energy use,Computer science,Energy harvesting,Quality of service,Computer network,Grid
Journal
Volume
Issue
ISSN
95
2
1572-834X
Citations 
PageRank 
References 
0
0.34
18
Authors
4
Name
Order
Citations
PageRank
Yuan Zhang1163.80
Ying Wang231639.54
Yongce Chen3101.85
Xinshui Wang461.46