Load diversity based optimal processing resource allocation for super base stations in centralized radio access networks

To reduce construction cost and energy consumption of cellular networks, the centralized radio access cellular network infrastructure with a Super BS (CSBS) architecture has been proposed. The CSBS architecture has the advantage that the centralized processing resource can be flexibly organized. How...

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Bibliographic Details
Published in:Science China. Information sciences 2014-04, Vol.57 (4), p.26-37
Main Authors: Zhai, GuoWei, Tian, Lin, Zhou, YiQing, Shi, JingLin
Format: Article
Language:English
Subjects:
Algorithms
Architecture
Cellular communication
Cellular radio
China
Computer Science
Computer simulation
Construction costs
Dynamic programming
Energy consumption
Information Systems and Communication Service
Optimization
Radio
Radio equipment
Research Paper
Resource allocation
Resource management
Stations
优化处理
加载
基站
多样性
无线接入网络
资源分配
资源利用效率
集中式
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Summary:To reduce construction cost and energy consumption of cellular networks, the centralized radio access cellular network infrastructure with a Super BS (CSBS) architecture has been proposed. The CSBS architecture has the advantage that the centralized processing resource can be flexibly organized. However, the problem of low processing resource efficiency caused by load discrepancy of base stations still exists and the processing resource allocation methods for physical layer processing are not suitable for protocol processing. In this article, a framework for protocol processing resource management is designed and a load diversity based processing resource allocation (LDA) algorithm is proposed, which employs dynamic programming with the consideration of load discrepancy. Also, to support large mumber of BSs, a suboptimal algorithm hybrid load diversity" based processing resource allocation (H-LDA) is also proposed. Sinmlation results show that LDA and H-LDA algorithm significantly outperforms the conventional methods, respectively, by more than 60% and 55% in the processing resource efficiency and the performance gap grows with the increasing BS number.
ISSN:1674-733X
1869-1919
DOI:10.1007/s11432-014-5075-y