为了提高无线协同中继传输系统的可达速率和吞吐量,提出了利用干扰消除的协同传输方案. 通过监听获得干扰信号的先验信息,再利用干扰重构减去技术来消除干扰信号,减少了系统传输时隙. 同时,推导出系统可达速率和中断概率的表达式,分析了不同传输方案下不同中继转发模式的系统性能. 仿真结果表明:随着链路信噪比的增大,基于干扰消除的协同传输方案能够有效地提高系统可达速率;当链路信噪比未知时,通过调节发送速率,可以获得系统的最优吞吐量.
In order to improve system achievable rate and throughput for wireless systems, this paper proposes a cooperative relay transmission scheme with interference cancelation. By overhearing interference signal as a priori information, the proposed scheme uses interference reconstruction and subtraction to cancel interference,reducing the time slot. Moreover, the paper derives the system achievable rate and outage probability expressions, and analyses the performance of different transmission schemes in diverse relay modes. Simulation results show that the proposed scheme can effectively improve the system achievable rate as the link signal-tonoise ratio (SNR) increases. By adjusting the transmission rate, optimal system throughput is obtained when
the link SNR at the receiver is unknown.
[1] NOSRATINIA A, HUNTER T E, HEDAYAT A. Cooperative communication in wireless networks [J]. IEEE Communications Magazine, 2004, 42(10): 74-80.
[2] XU W, WANG L, CHEN G. Performance of DCSK cooperative communication systems over multipath fading channels [J]. IEEE Transactions on Circuits and Systems I: Regular Papers, 2011, 58(1): 196-204.
[3] LANEMAN J N, TSE D N C, WORNELL G W. Cooperative diversity in wireless networks: efficient protocols and outage behavior [J]. IEEE Transactions on Information Theory, 2004, 50(12): 3062-3080.
[4] KIHONG K. Interference mitigation in wireless communications [D]. Atlanta: Georgia Institute of Technology, 2005.
[5] JAFAR S A, SHAMAI S. Degrees of freedom region of the MIMO X channel [J]. IEEE Transactions on Information Theory, 2008, 54(1): 151-170.
[6] YENER A, YATES R D, ULUKUS S. Interference management for CDMA systems through power control, multiuser detection and beam forming [J]. IEEE Transactions on Communications, 2001, 49(7): 1227-1239.
[7] HOEHER P A, BADRI-HOEHER S, DENG S, KRAKOWSKI C,WEN X. Single antenna interference cancellation (SAIC) for cellular TDMA networks by means of joint delayed-decision feedback sequence estimation [J]. IEEE Transactions on Wireless Communications, 2006, 5(6): 1234-1237.,
[8] GIRIDHAR K, CHARI S, SHYNK J, GOOCH R, ARTMAN D. Joint estimation algorithms for cochannel signal demodulation [C]// Proceedings of IEEE International Conference on Communications, Geneva, Switzerland, 1993: 1497-1501.
[9] CADAMBE V R, JAFAR S A. Interference alignment and the degrees of freedom of wireless X networks [J]. IEEE Transactions on Information Theory, 2009, 55(9): 3893-3908.
[10] 3GPP R1-050783, Text Proposal on IDMA for Inter-cell interference mitigation. RITT, ZTE, Huawei, 2005.
[11] CHEN W, LETAIEF K B, CAO Z. Network interference cancellation [J]. IEEE Transactions on Wireless Communication, 2009, 8(12): 5982-5999.
[12] KATTI S, GOLLAKOTA S, KATABI D. Embracing wireless interference: analog network coding [C]// Proceedings of ACM Special Interest Group on Data Communication Conference,Kyoto, Japan, 2007: 397-408.
[13] AHLSWEDE R, CAI N, LI S R, YEUNG R W. Network information flow[J]. IEEE Transactions on Information Theory, 2000, 46(4): 1204-1216.
[14] SHARMA S, SHI Y, LIU J, HOU Y T, KOMPELLA S. Is network coding always good for cooperative communications [C]// Proceedings of IEEE International Conference on Computer Communications, San Diego, CA, 2010:1-9.
[15] BANDEMER B, LI Q, LIN X E, PAULRAJ A. Overhearing-based interference cancellation for relay networks [C] // Proceedings of the IEEE Vehicular Technology Conference, Barcelona, Spain, 2009: 1-5.
[16] DAI C, THAI T, POPOVSKI P. Coordinated direct and relay transmission with interference cancelation in wireless systems [J]. IEEE Communications Letters, 2011, 15(4): 416-418.
[17] YI Z, JU M, KIM IM. Outage probability and optimum power allocation for analog network coding [J]. IEEE Transactions on Wireless Communications, 2011, 10(2): 407-412.
