Forward and Backhaul Link Optimization for Energy Efficient OFDMA Small Cell Networks

This paper aims at improving the system energy efficiency of orthogonal frequency division multiple access small cell networks under user data rate requirements. Differently, in this paper, we take into account the effect of both forward link and backhaul link when formulating the system energy effi...

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Bibliographic Details
Published in:IEEE transactions on wireless communications 2017-02, Vol.16 (2), p.1080-1093
Main Authors: Gaofeng Nie, Hui Tian, Sengul, Cigdem, Ping Zhang
Format: Article
Language:English
Subjects:
backhaul link
Complexity theory
Energy consumption
energy efficiency
forward link
Frequency division multiple access
Interference
Lower bounds
OFDM
OFDMA
Optimization
Orthogonal Frequency Division Multiplexing
Power demand
Signaling
small cell networks
Upper bounds
Wireless communication
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Summary:This paper aims at improving the system energy efficiency of orthogonal frequency division multiple access small cell networks under user data rate requirements. Differently, in this paper, we take into account the effect of both forward link and backhaul link when formulating the system energy efficiency optimization problem. The optimal solution to the system energy efficiency problem needs the joint consideration of the scheduling, the transmission power optimization, and the backhaul link data rate control, which is NP-hard and generates huge signaling overhead. To this end, we first compute and obtain the lower bound and upper bound of the optimal system energy efficiency based on the property analysis of the formulated system energy efficiency problem. Then, to reduce the signaling overhead and calculation complexity, we propose a forward and backhaul link energy efficiency optimization scheme (FBEEOS) to approach the achieved system energy efficiency bounds. The system energy efficiency is proved to be convergent in a non-decreasing manner in FBEEOS. The simulation results confirm the properties of FBEEOS. In addition, our results show that the transmission power optimization is necessary to achieve higher system energy efficiency though its contribution to total energy consumption is negligible. This is a result of the effect of transmission power on interference and throughput, and needs to be taken into consideration when we optimize the system energy efficiency.
ISSN:1536-1276
1558-2248
DOI:10.1109/TWC.2016.2636821