非正交多址接入无线能量采集协作系统

doi:10.11959/j.issn.1000-0801.2021054

Telecommunications Science ›› 2021, Vol. 37 ›› Issue (4): 46-53.doi: 10.11959/j.issn.1000-0801.2021054

• Research and Development • Previous Articles Next Articles

Non-orthogonal multiple access wireless energy harvesting cooperative system

Xiaoping JIN¹, Qing WU¹, Wenchao ZHAI¹, Jianrong BAO²

¹ Key Laboratory of Electromagnetic Wave Information Technology and Metrology of Zhejiang Province, College of Information Engineering, China Jiliang University, Hangzhou 310018, China
² College of Information Engineering, Hangzhou Dianzi University, Hangzhou 310018, China

Revised:2021-03-15 Online:2021-04-20 Published:2021-04-01
Supported by:
Zhejiang Provincial Natural Science Foundation of China(LY17F010012);Foundation of Zhejiang Provincial Educational Committee(Y201840047);Open Project Funding of the Key Laboratory of Electromagnetic Wave Information Technology and Metrology of Zhejiang Province(2019KF0004);National Students’ Platform for Innovation and Entrepreneurship Training Program(201810356030)

Abstract

Abstract:

Non-orthogonal multiple access (NOMA) has recently attracted wide attention as a promising multiple access technology adopted in 5G cellular networks.In order to improve the spectrum efficiency, coverage and anti-noise performance of NOMA technology, while reduce the energy consumption of the system, a simultaneous wireless information and power transfer (SWIPT) cooperative network uplink NOMA transmission system based on orthogonal index modulation multiple access (IMMA) technology was designed, hereafter was denoted as QIMMA-SWIPT.Specifically, the QIMMA system was formed by multiple remote users, and it improved the spectrum efficiency and anti-noise performance as well as expanded the communication coverage and reduced the energy consumption of the system by decoding and forwarding relay cooperative transmission with SWIPT technology.The theoretical upper bound of the average bit error rate of QIMMA-SWIPT was derived.Simulation and analysis demonstrate that, under the same spectrum efficiency, the bit error rate performance of the cooperative QIMMA-SWIPT system is better than that of the cooperative IMMA-SWIPT and SCMA-SWIPT systems.In addition, the effects of power cut factor and source-to-relay distance on bit error performance were also deeply analyzed.

Key words: SWIPT, non-orthogonal multiple access, power-splitting, index modulation

CLC Number:

TN929.5

Xiaoping JIN, Qing WU, Wenchao ZHAI, Jianrong BAO. Non-orthogonal multiple access wireless energy harvesting cooperative system[J]. Telecommunications Science, 2021, 37(4): 46-53.

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References 11

[1]	毕奇, 梁林, 杨姗 ,等. 面向 5G 的非正交多址接入技术[J]. 电信科学, 2015,31(5): 14-21.
	BI Q , LIANG L , YANG S ,et al. Non-orthogonal multiple access technology for 5G systems[J]. Telecommunications Science, 2015,31(5): 14-21.
[2]	DING Z , YANG Z , FAN P ,et al. On the performance of non-orthogonal multiple access in 5G systems with randomly deployed users[J]. IEEE Signal Processing Letters, 2014,21(12): 1501-1505.
[3]	NIKOPOUR H , BALIGH H . Sparse code multiple access[C]// Proceedings of Personal,Indoor and Mobile Radio Communications.[S.n.:s.l.], 2013: 332-336.
[4]	ALTHUNIBAT S , MESLEH R , RAHMAN T F ,et al. A novel uplink multiple access technique based on index-modulation concept[J]. IEEE Transactions on Communications, 2019,67(7): 4848-4855.
[5]	ALTHUNIBAT S , MESLEH R , QARAQE K A ,et al. Quadrature index modulation based multiple access scheme for 5G and beyond[J]. IEEE Communications Letters, 2019,23(12): 2257-2261.
[6]	金小萍, 杨玲玲, 金宁 ,等. 基于 GSM-MBM 的无线携能协作系统性能分析[J]. 北京邮电大学学报, 2018,41(5): 141-146.
	JIN X P , YANG L L , JIN N ,et al. Performance analysis of gsm-mbm based wireless energy harvesting cooperative system[J]. Journal of Beijing University of Posts and Telecommunications, 2018,41(5): 141-146.
[7]	汪巧, 周彦果, 杨新杰 ,等. 全双工协作多播业务在 NOMA系统中的应用和性能[J]. 电信科学, 2019,35(10): 69-76.
	WANG Q , ZHOU Y G , YANG X J ,et al. Application and performance of full-duplex cooperative multicast in NOMA system[J]. Telecommunications Science, 2019,35(10): 69-76.
[8]	NASIR A A , ZHOU X , DURRANI S ,et al. Relaying protocols for wireless energy harvesting and information processing[J]. IEEE Transactions on Wireless Communications, 2013,12(7): 3622-3636.
[9]	JEGANATHAN J , GHRAYEB A , SZCZECINSKI L . Spatial modulation:optimal detection and performance analysis[J]. IEEE Communications Letters, 2012,12(8): 545-547.
[10]	BASAR E , AYGOLU U , PANAYIRCI E ,et al. Orthogonal frequency division multiplexing with index modulation[J]. IEEE Transactions on Signal Processing, 2013,61(22): 5536-5549.
[11]	SIMON M K . Digital communication techniques:signal design and detection[M]. Upper Saddle River: Prentice Hall PTR, 1995.

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	SCMA-SWIPT	IMMA-SWIPT	QIMMA-SWIPT
频谱效率/(bit.(s.Hz)^-1)	lbM ₁	lb(M ₁L)	lb(M₁L ²)

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