Power allocation for OFDM-based cognitive heterogeneous networks

被引：0

作者：

FEI ZeSong ^{[1
]}

XING ChengWen ^{[1
]}

LI Na ^{[1
]}

HAN YanTao ^{[1
]}

DANEV Danyo ^{[2
]}

KUANG JingMing ^{[1
]}

机构：

[1] School of Information Science and Engineering,Beijing Institute of Technology

[2] Department of Electrical Engineering(ISY),Linkping University

来源：

ScienceChina(InformationSciences) | 2013年 / 56卷 / 04期

关键词：

heterogeneous network; orthogonal frequency division multiple access; cognitive radio; intercarrier interference; resource allocation;

D O I：

暂无

中图分类号：

TN919.3 [数据传输技术];

学科分类号：

0810 ; 081001 ;

摘要：

In this paper,the capacity maximization and the spectrum utilization efficiency improvement are investigated for the Pico cells in broadband heterogeneous networks.In frequency-reuse model,the users attached to Macro base station are usually viewed as primary users,and those attached to Pico base station should be regarded as cognitive radio(CR) users.As both the primary users and the CR users communicate in parallel frequency bands,the performance of the system is limited by the mutual inter-carrier interference(ICI).In order to control ICI and maximize the achievable transmission rate of the CR users,an effective power allocation scheme is proposed to maximize the transmission rate of the CR users under a given interference threshold prescribed by the primary users.By transforming this suboptimal solution into an innovative matrix expression,the algorithm is easier to perform in practice.The simulation results demonstrate that the proposed algorithm provides a large performance gain in Pico cell capacity over the non-cooperative and equal power allocation schemes.

引用

页码：103 / 112

页数：10

共 18 条

[1]

Dynamic spectrum sharing for heterogeneous wireless network via cognitive radio. Kaniezhil R,Chandrasekar C,Rekha S N. International Conference on Pattern Recognition,Informatics and Medical Engineering (PRIME) . 2012

[2]

Heterogeneous network in LTE-advanced system. Wan L,Wu H,Yu Y H,et al. IEEE International Conference on Communication Systems . 2010

[3]

Optimization of ofdma-based cellular cognitive radio networks. Ma Y,Kim D I,Wu Z. IEEE Transactions on Communications . 2010

[4]

Resource allocation for multicast services in distributed antenna system with QoS guarantees. Tian L,Zhou Y,Zhang Y,et al. IET Commun . 2012

[5]

Cognitive radio networking and communications: an overview. Liang Y C,Chen K C,Li G Y,et al. IEEE Transactions on Vehicular Technology . 2011

[6]

Resource allocation for heterogeneous multiuser OFDM-based cognitive radio networks with imperfect spectrum sensing. Wang S W,Zhou Z H,Ge M Y,et al. Proceedings IEEE INFOCOM . 2012

[7]

On exploiting cognitive radio to mitigate interference in macro/femto heterogeneous networks. Cheng S M,Lien S Y,Chu F S,et al. IEEE Wireless Communications . 2011

[8]

Downlink subchannel and power allocation in multi-cell OFDMA cognitive radio networks. CHOI K W,HOSSAIN E,KIM D I. IEEE Transactions on Wireless Communications . 2011

[9]

Optimization of OFDMA-Basedcellular cognitive radio networks. MA Y,Dong I K,Wu Z Q. IEEE Trans.on Commu-nications . 2010

[10]

Optimization of OFDMA-Basedcellular cognitive radio networks. MA Y,Dong I K,Wu Z Q. IEEE Trans.on Commu-nications . 2010

← 1 2 →