Optimizing power consumption in distributed antenna systems with large-scale CSIT

doi:10.16511/j.cnki.qhdxxb.2016.21.039

Abstract
Figures/Tables
References
Related Articles
Metrics

Download: PDF(1035 KB)
Export: BibTeX | EndNote | Reference Manager | ProCite | RefWorks

Abstract The power consumption in distributed antenna systems (DAS) is reduced for green mobile communications by optimizing the total power consumption in downlink DAS with only large-scale channel state information at the transmitter (CSIT) using a practical power consumption model including both the transmission power and the circuit power. The scheme combines transmit antenna selection and power allocation, decomposes the original problem into a series of sub-problems, each of which can be solved by efficient algorithms. The result is a low-complexity joint ordering selection and power allocation algorithm. Simulations show that the total power consumption is reduced considerably by this algorithm while satisfying the ergodic capacity requirements of the users. Thus, this scheme provides practical performance enhancement for DAS with low system overhead.

Keywords mobile communications distributed antenna systems (DAS) circuit power consumption large-scale channel state information at the transmitter (CSIT)

ZTFLH:

TN929.5

Issue Date: 15 July 2016

	Service

	E-mail this article
	E-mail Alert
	RSS
	Articles by authors

	WANG Jing
	WANG Yanmin
	FENG Wei
	XIAO Limin
	ZHOU Shidong

Cite this article:

WANG Jing,WANG Yanmin,FENG Wei, et al. Optimizing power consumption in distributed antenna systems with large-scale CSIT[J]. Journal of Tsinghua University(Science and Technology), 2016, 56(7): 696-699,706.

URL:

http://jst.tsinghuajournals.com/EN/10.16511/j.cnki.qhdxxb.2016.21.039 OR http://jst.tsinghuajournals.com/EN/Y2016/V56/I7/696

[1] Han C, Harrold T, Armour S, et al. Green radio:radio techniques to enable energy-efficient wireless networks[J]. IEEE Commun Mag, 2011, 49(6):46-54.
[2] FENG Wei, GE Ning, LU Jianhua. Hierarchical transmission optimization for massively dense distributed antenna systems[J]. IEEE Commun Lett, 2015, 19(4):673-676.
[3] FENG Wei, WANG Yanmin, GE Ning, et al. Virtual MIMO in multi-cell distributed antenna systems:coordinated transmissions with large-scale CSIT[J]. IEEE J Sel Areas Commun, 2013, 31(10):2067-2081.
[4] FENG Wei, WANG Yanmin, GE Ning, et al. Adaptive inter-cell coordination for the distributed antenna system with correlated antenna-clusters[C]//Proc ICC 2014. Sydney, Australia:IEEE Press, 2014:5567-5572.
[5] FENG Wei, LI Yunzhou, GAN Jiansong, et al. On the deployment of antenna elements in generalized multi-user distributed antenna systems[J]. Mobile Netw Appl, 2011, 16(1):35-45.
[6] Cui S G, Goldsmith A J, Bahai A. Energy-efficiency of MIMO and cooperative MIMO techniques in sensor networks[J]. IEEE J Sel Areas Commun, 2004, 22(6):1089-1098.
[7] He C, Li G Y, Zheng F, et al. Energy-efficient resource allocation in OFDM systems with distributed antennas[J]. IEEE Trans Veh Technol, 2014, 63(3):1223-1231.
[8] Jiang C, Cimini L J. Antenna selection for energy-efficient MIMO transmission[J]. IEEE Wireless Commun Lett, 2012, 1(6):577-580.
[9] Li Y, Sheng M, Zhang Y, et al. Energy-efficient antenna selection and power allocation in downlink distributed antenna systems:a stochastic optimization approach[C]//Proc ICC 2014. Sydney, Australia:IEEE Press, 2014:4963-4968.
[10] Wang Y, Feng W, Xiao L, et al. Coordinated multi-cell transmission for distributed antenna systems with partial CSIT[J].IEEE Commun Lett, 2012,16(7):1044-1047.
[11] FENG Wei, ZHANG Xiujun, ZHOU Shidong, et al. Downlink power allocation for distributed antenna systems with random antenna layout[C]//Proc VTC 2009-Fall. Anchorage, AK, USA:IEEE Press, 2009:1-5.
[12] WANG Tan, WANG Ying. Joint resource allocations in distributed antenna systems with coherent transmitter[C]//Proc GLOBECOM Workshops 2011. Houston, TX, USA:IEEE Press, 2011:194-198.
[13] Liu A, Lau V K N. Joint power and antenna selection optimization for energy-efficient large distributed MIMO networks[C]//Proc ICCS 2012. Singapore:IEEE Press, 2012:230-234.
[14] Telatar E. Capacity of multi-antenna Gaussian channels[J].Eur Trans Telecomm, 1999,10(6):585-596.
[15] Boyd S, Vandenberghe L. Convex Optimization[M]. Cambridge, UK:Cambridge Univ Press, 2004.

[1]	CHEN Huangqing, ZHONG Xiaofeng, WANG Jing. Optimized deployment of broadcast cells based on the energy efficiency in a single frequency network[J]. Journal of Tsinghua University(Science and Technology), 2018, 58(2): 170-174.
[2]	MI Xiang, ZHAO Ming, XU Xibin, WANG Jing. Resource optimization for D2D communications based on statistical QoS provisioning[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(12): 1296-1302.
[3]	BI Wenping, SU Xin, XIAO Limin, ZHOU Shidong. Linear deployment performance analysis of a fractional full duplex cellular network[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(11): 1190-1195.
[4]	LIU Yu, ZHANG Xiujun, ZHOU Shidong. Reciprocity calibration of a massive MIMO based on a local calibration[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(9): 939-944,951.
[5]	ZHOU Shidong, YANG Zhi, XIAO Limin. Key generation rate analysis with changes in the user position[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(8): 862-866.
[6]	WEI Hongxin, WANG Yanmin, LI Yunzhou, ZHOU Shidong. Queue-aware energy savings in multi-carrier small-cell networks[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(8): 867-871.
[7]	LIN Meng, LI Yunzhou, XU Xibin, WANG Jing. Interference-mitigation based BICM-FBMC-ID receiver[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(8): 872-877,883.
[8]	FU Junsong, LIU Yun. Node security model for wireless sensor networks based on a reputation system and data noise point detection technique[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(1): 24-27.
[9]	WANG Jing, WANG Yanmin, FENG Wei, XIAO Limin, ZHOU Shidong. Energy efficient coordinated transmission scheme for multi-cell distributed antenna systems[J]. Journal of Tsinghua University(Science and Technology), 2017, 57(1): 67-71.
[10]	ZHAO Juntao, FENG Wei, ZHAO Ming, WANG Jing. Resource optimization with large-scale channel state information for spectrum sharing systems[J]. Journal of Tsinghua University(Science and Technology), 2016, 56(7): 692-695.
[11]	CAI Shijie, XIAO Limin, WANG Jing, ZHOU Shidong. Research on periodical opening of small base-stations for energy conservation[J]. Journal of Tsinghua University(Science and Technology), 2016, 56(1): 111-116.
[12]	LUAN Fengyu, ZHANG Yan, ZHENG Fanfan, XU Xibin, ZHOU Shidong. Security of a position-based secret key generation method[J]. Journal of Tsinghua University(Science and Technology), 2015, 55(8): 831-837.
[13]	LIU Kai, YAN Jian, LU Jianhua. Onboard interconnected parallel Clos-network[J]. Journal of Tsinghua University(Science and Technology), 2015, 55(8): 838-843.
[14]	LI Jiahui, ZHANG Yan, LUAN Fengyu, LI Xueru, ZHOU Lai, ZHOU Shidong. Multipath-based probabilistic fingerprinting method for indoor positioning[J]. Journal of Tsinghua University(Science and Technology), 2015, 55(5): 514-519,525.
[15]	HE Qiang, ZHANG Xiujun, XIAO Limin, ZHOU Shidong. Impact of multi-cell pilot reuse on the achievable uplink rate for massive MIMO systems[J]. Journal of Tsinghua University(Science and Technology), 2015, 55(5): 526-531.

Viewed

Full text

Abstract

Cited

Shared

Discussed