Energy efficient power allocation strategy for downlink MU-MIMO with massive antennas 被引量：1

Energy efficient power allocation strategy for downlink MU-MIMO with massive antennas

导出

摘要 With the increasing energy consumption, energy efficiency （EE） has been considered as an important metric for wireless communication networks as spectrum efficiency （SE）. In this paper, EE optimization problem for downlink multi-user multiple-input multiple-output （MU-MIMO） system with massive antennas is investigated. According to the convex optimization theory, there exists a unique globally optimal power allocation achieving the optimal EE, and the closed-form of the optimal EE only related to channel state information is derived analytically. Then both the approximate and accurate power allocation algorithms with different complexity are proposed to achieve the optimal EE. Simulation results show that the optimal EE obtained by the approximate algorithm coincides to that achieved by the accurate algorithm within the controllable error limitation, and these proposed algorithms perform better than the existing equal power allocation algorithm. The optimal EE and corresponding SE increase with the number of antennas at base station, which is promising for the next generation wireless communication networks. With the increasing energy consumption, energy efficiency （EE） has been considered as an important metric for wireless communication networks as spectrum efficiency （SE）. In this paper, EE optimization problem for downlink multi-user multiple-input multiple-output （MU-MIMO） system with massive antennas is investigated. According to the convex optimization theory, there exists a unique globally optimal power allocation achieving the optimal EE, and the closed-form of the optimal EE only related to channel state information is derived analytically. Then both the approximate and accurate power allocation algorithms with different complexity are proposed to achieve the optimal EE. Simulation results show that the optimal EE obtained by the approximate algorithm coincides to that achieved by the accurate algorithm within the controllable error limitation, and these proposed algorithms perform better than the existing equal power allocation algorithm. The optimal EE and corresponding SE increase with the number of antennas at base station, which is promising for the next generation wireless communication networks.

作者 ZHAO Long ZHAO Hui ZHENG Kan

机构地区 Key Laboratory of Universal Wireless Communication School of Information and Communication Engineering

出处《The Journal of China Universities of Posts and Telecommunications》 EI CSCD 2013年第3期1-7,共7页 中国邮电高校学报（英文版）

基金 supported by the Foundational Research Funds for the Central Universities the National Basic Research Program of China (2012CB316005) the Program for New Century Excellent Talents in University (NCET-11-0600) the National Key Technology R&D Program of China (2012ZX03004004)

关键词 green communications SE EE MU-MIMO ZERO-FORCING green communications, SE, EE, MU-MIMO, zero-forcing

分类号 TN820 [电子电信—信息与通信工程] TN919.3 [电子电信—通信与信息系统]

引文网络
相关文献

参考文献1

1ZHANG Guo-yi,WANG Yong,XU Jian,LUO Hui-hong.Energy-efficient performance of cooperative relay network with joint sensing-transmission time duration and power allocation[J].The Journal of China Universities of Posts and Telecommunications,2012,19(5):32-38. 被引量：2

二级参考文献10

1Liang Y C, Zeng Y, Peh E C Y, et al. Sensing-throughput tradeoff for cognitive radio networks. IEEE Transactions on Wireless Communications, 2008, 7(4): 1326-1337.
2Pei Y, Hoang A T, Liang Y C. Sensing-throughput tradeoff in cognitive radio networks: how frequently should spectrum sensing be carried out? Proceedings of the ! 8th IEEE International Symposium on Personal, Indoor and Mobile Radio Communications (PIMRC'07), Sep 3-7, 2007, Athens, Greece. Piscataway, NJ, USA: IEEE, 2007: 5p.
3Zhou X, Li G Y, Kwon Y H, et al. Detection timing and channel selection for periodic spectrum sensing in cognitive radio. Proceedings of the IEEE Global Telecommunications Conference (GLOBECOM'08), Nov 30-Dec 42008, New Orleans, LA, USA. Piscataway, N J, USA: 1EEE, 2008: 5p.
4Li L Y, Zhou X W, Xu H, et al. Energy-efficient transmission in cognitive radio networks. Proceedings of the 7th IEEE Annual Consumer Communications and Networking Conference (CCNC' 10), Jan 10-13, 2010, Las Vegas, NV, USA. Piscataway, N J, USA: IEEE, 2010: 5p.
5Ghasemi A, Sousa E S. Optimization of spectrum sensing for opportunistic spectrum access in cognitive radio networks. Proceedings of the 6th 1EEE Consumer Communications and Networking Conference (CCNC'09), Jan 10-13, 2009, Las Vegas, NV, USA. Piscataway, N J, USA: IEEE, 2009: 1022-1026.
6Zhao L, Liao Z Y. Power allocation for amplify-and-lbrward cooperative transmission over Rayleigh-fading channels. Journal of Communications, 2008, 3(3): 33-42.
7Zhang G Y, Hu Z, Wang C R, et al. Joint power and channel allocation lbr energy-efficient performance of relay-assisted cognitive radio networks based on energy pricing. Electronics Letters, 2010, 46(23): 1571 1573.
8Nosmtinia A, Hunter T E, Hedayat A.Cooperativc communication in wireless networks. IEEE Communications Magazine, 2004, 42( 10): 74-80.
9Li H Y, Fu H L, Guan A H, et al. Game theoretic powcr control algorithm in cognitive radio networks. Journal of Chongqing University of Posts and Telecommunications: Natural Science, 2010, 22(6): 756 760 (in Chinese).
10Zhao C S, Kwak K. Joint sensing time and power allocation in cooperatively cognitive networks. IEEE Communications Letters, 2010, 14(2): 163 165.

共引文献1

1魏庆丽,朴冠宇,李娇阳,吴字宇,凌振宝.基于射频卡式身份识别的智能教室考勤系统[J].吉林大学学报（信息科学版）,2013,31(4):397-403. 被引量：5

同被引文献12

1WEI Feng,WANG Yanmin,LU Jianhua, et al. Virtual MI- MO in Multi-Cell Distributed Antenna Systems:Coordina- ted Transmissions with Large-Scale CSIT[ J]. IEEE Jour- nal on Selected A-reas in Communications, 2013, 31 (10) :2067-2-081.
2LIU L, CHEN R, GEIRHOFER S, et al. Downlink MIMO in LTE-Advanced: SU-MIMOvs. MU-MIMO [ J ]. IEEE Communications Magazine ,2012,50 (2) : 140-147.
3MARZETTA T L. Noncooperative Cellular Wirele-ss with Unlimited Numbers of Base Station Antennas [ J ]. IEEE Transactions on wireless Com-munications, 2010,9 ( 11 ) : 3590-3600.
4NG Boon Loong, YOUNSUN Kim, LEE Juho, et al. Fulfil- ling the promise of massive MIMO with 2D active antenna array [ C ]//IEEE Globecom Workshops ( GC Wkshops ). Anaheim : IEEE Press,2011 : 691-696.
5KITA N, YAMADA W, SATO A. Path loss prediction model for the over-rooftop propagation environment of mi- crowace band in suburban areas [ J ]. IEICE Trans Com- mun, 2006,89 ( 2 ) : 115-1-25.
6CORRE Y, STEPHAN J, LOSTANLEN Y. Indoor-to-out- door path-loss models for femtocell predictions [ C ]// IEEE 22th International Symposium Personal Indoor and Mobile RadioCommunicatiations ( PIMRC ). Toronto: IEEE Press,2011 : 824-828.
7HAR D, XIA H, BERTONI L. Path-loss prEdiction model ibr microcells[ J]. IEEE Transactions on Vehicular Technology, 1999,48 ( 5 ) : 1453-1462.
8YU Lei, HUA Lei, QIU Hua. Analysis of Constant-Power Waterfilling in MIMO Channels [ C ]//International Con- ferenee on internet Technology and Application (ITAP). Wuhan : IEEE Press ,2011 : 1-5.
9ZHAO Ming, SHI Zhenning. A Reduced-State-Space Markov Chain Monte Carlo Method for lterative Spatial Multiplexing MIMO [ C ]//IEEE GLOBECOM Work- shops. Honolulu : IEEE Press ,2009 : 1-6.
10CHEN Rongrong, PENG Ronghui. Approaching MIMO capacity using bitwise Markov Chain Monte Carlo detee-tion [ J ]. IEEE TransacTion on Communications, 201 0, 58 (2) :423-428.

引证文献1

1肖寒春,蒋文科,张祖凡.分层动态虚拟MIMO的信道容量分析[J].重庆邮电大学学报（自然科学版）,2015,27(2):174-178. 被引量：3

二级引证文献3

1马静,沈来信,盛文婷.在线开放通信网络信道分配算法优化[J].沈阳工业大学学报,2017,39(2):193-197. 被引量：6
2韩伟良,葛建华,马波,高洋.符号干扰多径信道下可达信道容量的预编码方案[J].吉林大学学报（工学版）,2017,47(3):981-987. 被引量：1
3曾玖贞,王超,王彦,邓贤君,王明华.基于NSFC-OFDM的非协作式虚拟MIMO[J].重庆邮电大学学报（自然科学版）,2017,29(3):327-334.

1刘建,刘晶晶.下一代广播电视网三网融合[J].电脑迷（数码生活）（上旬刊）,2013(4):5-6.
2何坚明,李帅.驻扎江西：PCB产业根基见稳[J].印制电路资讯,2014(2):19-23.
3陈华.光纤联网:开发高级业务的工具[J].有线电视技术,2004,11(3):108-108.
4孙振红,柴路,张志刚,王清月,张伟力.飞秒激光放大系统中色散补偿的光线追迹精确算法[J].光电子．激光,2004,15(11):1297-1300. 被引量：1
5崔婧.西门子:探路“工业4.0”[J].中国经济和信息化,2014,0(19):74-75.
6邓勇,周一宇.平面三站时差定位中的模糊研究[J].电子对抗,1999(1):13-17. 被引量：1
7周永刚,徐金平,顾长青,王海婴.细导线精确算法在改进的减缩时域有限差分法中的应用[J].微波学报,2005,21(5):1-4. 被引量：2
8APC InfraStruXure驻扎江宁地税[J].电源技术应用,2005,18(1).
9刘广平,宣益民,韩玉阁.一维光子晶体在热光伏技术中的应用[J].光子学报,2008,37(1):115-119. 被引量：12
10KHAN Ahmed Muddassir,ZHANG Jie,ZHAO Yong-li,GAO Guan-jun,CHEN Sai,WANG Dao-bin.Simple and spectrally-efficient design of high capacity hybrid WDM/TDM-PON with improved receiver sensitivity[J].The Journal of China Universities of Posts and Telecommunications,2013,20(3):114-120.

The Journal of China Universities of Posts and Telecommunications

2013年第3期

浏览历史

内容加载中请稍等...