基于降维原理的全双工射频域快速自干扰抑制算法研究

doi:10.11959/j.issn.1000-436x.2017161

Abstract

Abstract:

In a fu11-dup1ex transceiver，to ca1cu1ate the variab1e attenuator and phase shifter parameters of the se1f-interference（SI）cance11ation structure at the radio frequency（RF）domain was not a convex quadratic conic programming prob1em，which 1ed to a s1ow convergence speed.To so1ve the prob1em，a quick SI cance11ation a1gorithm based on dimension reduction was proposed.It transformed the estimation of the above two variab1es into that of the cross corre1ation of the received SI and the SI reference signa1s，to reduce the search dimension and iteration numbers of the optimization prob1em and improve the convergence speed of the SI cance11ation at the RF domain.By ana1ysis and simu1ation，compared to the existing adaptive SI cance11ation a1gorithms at the RF domain，the proposed a1gorithm obtains the optima1 va1ues of the variab1e attenuator and phase shifter by two iterations，and then significant1y improves the convergence speed of the SI cance11ation at the RF domain.

Key words: co-frequency and co-time fu11 dup1ex, RF se1f-interference cance11ation, dimension reduction, convergence speed

CLC Number:

TN92

Jun WANG,Hong-zhi ZHAO,You-xi TANG. Quick self-interference cancellation algorithm based on dimension reduction at radio frequency domain in full duplex system[J]. Journal on Communications, 2017, 38(8): 28-36.

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References 22

[1]	NG D , WU Y , SCHOBER R . power efficient resource allocation for full-duplex radio distributed antenna networks[J]. IEEE Transactions on Wireless Communications, 2016,15(4): 2896-2911.
[2]	ZHANG Z , CHEN Z , SHEN M ,et al. Spectral and energy efficiency of multipair two-way full-duplex relay systems with massive MIMO[J]. IEEE Journal on Selected Areas in Communications, 2016,34(4): 848-863.
[3]	张平, 陶运铮, 张治 . 5G 若干关键技术评述[J]. 通信学报, 2016,37(7): 15-29.
	ZHANG P , TAO Y Z , ZHANG Z . Survey of key technologies for 5G[J]. Journal on Communications, 2016,37(7): 15-29.
[4]	SABHARWAL A , SCHNITER P , GUO D ,et al. In-band full-duplex wireless:challenges and opportunities[J]. IEEE Journal on Selected Areas in Communications, 2014,32(9): 1637-1652.
[5]	杨吉松, 刘皓, 孙辰 . 基于空间投影的全双工 MIMO 中继站自反馈干扰抑制[J]. 通信学报, 2014,35(9): 156-163.
	YANG J S , LIU H , SUN C . Loop interference suppression based on space projection in full-cluplex MIMO relays[J]. Journal on Communications, 2014,35(9): 156-163.
[6]	DUARTE M , DICK C , SABHARWAL A . Experiment-driven characterization of full-duplex wireless systems[J]. IEEE Transactions on Wireless Communications, 2012,11(12): 4296-4307.
[7]	JONG H L . Self-interference cancellation using phase rotation in full duplex wireless[J]. IEEE Transactions on Vehicular Technology, 2013,62(9): 4421-4429.
[8]	DUARTE M , SABHARWAL A , AGGARWAL V ,et al. Design and characterization of a full-duplex multiantenna system for Wi-Fi networks[J]. IEEE Transactions on Vehicular Technology, 2014,63(3): 1160-1177.
[9]	PHUNGAMNGERN N , UTHANSAKUL P , UTHANSAKUL M . Digital and RF interference cancellation for single-channel full-duplex transceiver using a single antenna[C]// IEEE 10th International Conference on Electrical Engineering Electronics,Computer,Telecommunications and Information Technology(ECTI-CON). 2013: 1-5.
[10]	MADDIO S , CIDRONALI A , MANES G.Real-time adaptive transmitter leakage cancelling in 5 . 8-ghz full-duplex transceivers[J]. IEEE Transactions on Microwave Theory and Techniques, 2015,63(2): 509-519.
[11]	MCMICHAEL J G , KOLODZIEJ K E . Optimal tuning of analog self-interference cancellers for full-duplex wireless communication[C]// 2012 50th Annual Allerton Conference on Communication,Control and Computing. 2012: 246-251.
[12]	ZHANG Z , SHEN Y , SHAO S ,et al. Full duplex 2×2 MIMO radios[C]// IEEE 2014 Sixth International Conference on Wireless Communications and Signal Processing(WCSP). 2014: 1-6.
[13]	HUUSARI T , CHOI Y S , LIIKKANEN P ,et al. Wideband self-adaptive RF cancellation circuit for full-duplex radio:operating principle and measurements[C]// 2015 IEEE 81st Vehicular Technology Conference(VTC Spring). 2015: 1-7.
[14]	KOLODZIEJ K E , MCMICHAEL J G , PERRY B T . Adaptive RF canceller for transmit-receive isolation improvement[C]// 2014 IEEE Radio and Wireless Symposium(RWS). 2014: 172-174.
[15]	KOLODZIEJ K E , MCMICHAEL J G , PERRY B T . Multi-tap RF canceller for in-band full-duplex wireless communications[J]. IEEE Transactions on Wireless Communications, 2016,15(6): 4321-4334.
[16]	BOYD S , VANDENBERGHE L . Convex optimization[M]. Cambridge,United Kingdom Cambridge University Press, 2004.
[17]	GORDON L S . Principles of mobile communication[M]. Berlin: SpringerPress, 2011: 198-203.
[18]	HONG S S , MEHLMAN J , KATTI S . Picasso:flexible RF and spectrum slicing[J]. ACM SIGCOMM Computer Communication Review, 2012,42(4): 37-48.
[19]	WU X , SHEN Y , TANG Y . The power delay profile of the single-antenna Full-Duplex self-interference channel in indoor environments at 26 GHz[J]. IEEE Antennas and Wireless Propagation Letters, 2014,13: 1561-1564.
[20]	CHOI J I , JAIN M , SRINIVASAN K ,et al. Achieving single channel,full duplex wireless communication[C]// The Sixteenth Annual International Conference on Mobile Computing and Networking. 2010: 1-12.
[21]	JAIN M , CHOI J I , KIM T ,et al. Practical,real-time,full duplex wireless[C]// The 17th Annual International Conference on Mobile Computing and Networking. 2011: 301-312.
[22]	CHOI Y S SHIRANI-MEHR H . Simultaneous transmission and reception:algorithm,design and system level performance[J]. IEEE Transactions on Wireless Communications, 2013,12(12): 5992-6010.

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参数名	取值
调制方式	BPSK
成形脉冲	根升余弦
成形脉冲滚降因子β	0.22
信号带宽	10 MHz
载波频率	2 GHz
自干扰幅度衰减	0.001 2
自干扰传输时延	5 ns

Quick self-interference cancellation algorithm based on dimension reduction at radio frequency domain in full duplex system

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