参考文献_绿色蜂窝与多跳网络设计-QQ阅读中文短篇网

书名：绿色蜂窝与多跳网络设计
作者名：李保罡
本章字数：1737字
更新时间：2021-01-22 19:47:20

参考文献

[1] HASAN Z, BOOSTANIMEHR H, BHARGAVA V K.Green cellular networks:a survey, some research issues and challenges [J].IEEE commun.surveys & tutorials, 2011, 13(4):524-540.

[2] FENG D, JIANG C, LIM G, et al.A survey of energy-efficient wireless communications [J].IEEE commun.surveys & tutorials, 2013, 15(1):167-178.

[3] RAO J B, FAPOJUWO A O.A survey of energy efficient resource management techniques for multicell cellular networks [J].IEEE commun.surveys & tutorials, 2014, 6(1):154-180.

[4] LI G Y, XU Z K, XIONG C, et al.Energy-efficient wireless communications tutorial, survey, and open issues [J].IEEE wireless commun., 2011, 18(6):28-35.

[5] SUAREZ L, NUAYMI L, BONNIN J M.An overview and classification of research approaches in green wireless networks[J].EURASIP journal on wireless communications and networking, 2012, 142.

[6] 2010 wireless smartphone customer satisfaction study, J.D.Power and Associates[EB/OL].http://www.jdpower.com/Electronics/ratings/Wireless-Smartphone-Ratings-(Volume-1)/, 2010.

[7] WANG W N, MI Z K, WANG B.Green networking based energy efficient communications[J].China communication, 2012, 9(2):22-30.

[8] 王磊.绿色无线通信技术概述[J].无线通信技术, 2013, 3:34-39.

[9] XU Z, LI G Y, YANG C, et al.Energy-efficient power allocation for pilots in training-based downlink OFDMA systems [J].IEEE trans.commun., 2012, 60(10):3047-3058.

[10] LI B, WANG X.Hybrid energy supply based energy efficiency and spectral efficiency tradeoff for green cellular system[J].International journal of future generation communication and networking, 2016, 9(3):181-188.

[11] NIU Z, WU Y, GONG J, et al.Cell zooming for cost-efficient green cellular networks [J].IEEE commun.mag., 2010, 48(11):74-79.

[12] CHEN Y, ZHANG S, XU S, et al.Fundamental trade-offs on green wireless networks [J].IEEE commun.mag., 2011, 49(6):30-37.

[13] HUANG S, CHEN H, CAI J, et al.Energy efficiency and spectral-efficiency tradeoff in amplify-and-forward relay networks [J].IEEE trans.on vehicular technology, 2013, 62(9):4367-4378.

[14] HE C, SHENG B, ZHU P, et al.Energy efficiency and spectral efficiency tradeoff in downlink distributed antenna systems [J].IEEE wireless commun.lett., 2012, 1(3):153-156.

[15] DENG L, RUI Y, CHENG P, et al.A unified energy efficiency and spectral efficiency tradeoff metric in wireless networks [J].IEEE commun.lett., 2013, 17(1):55-58.

[16] 朱近康, 许莉.绿色蜂窝网络的频谱效率与能效函数[J].通信学报, 2013, 34(1):1-7.

[17] HE G, ZHANG S, CHEN Y, et al.Fundamental tradeoffs and evaluation methodology for future green wireless networks [C]//In:Workshop on Smart and Green Commun.& Networks, 2012:74-78.

[18] HAN T, ANSARI N.On optimizing green energy utilization for cellular networks with hybrid energy supplies [J].IEEE trans.on wireless commun., 2013, 12(8):3872-3882.

[19] LI B G, LIU T, ZHANG K.Simplified energy efficiency resource allocation in cognitive heterogeneous system with smart grid [J].Submitted to IEEE commun.letters, in review.

[20] WANG S, GE M, ZHAO W.Energy-efficient resource allocation for OFDM-based cognitive radio networks [J].IEEE trans.on commun., 2013, 61(8):3181-3191.

[21] 张秀宁, 谈振辉, 徐少毅, 等.基于跨层设计的Macro-Femto异构网络下行链路功率消耗最小化（英文）[J].中国通信, 2013, 2:42-55.

[22] 刘鑫, 韩圣千, 徐志昆, 等.面向下行多天线传输的能效最优上行训练[J].北京航空航天大学学报, 2013, 39(6):1-6.

[23] XIE R, YU F R, JI H, et al.Energy-efficient resource allocation for heterogeneous cognitive radio networks with femtocells [J].IEEE trans.on wireless commun., 2012, 11(11):3910-3920.

[24] 喻鹏, 李文璟, 邱雪松.区域化的无线蜂窝网自主节能管理机制[J].电子与信息学报, 2012, 34(11):2708-2714.

[25] 赵龙, 龙航, 赵慧, 等.下行MIMO系统能效最优的功率分配[J].北京邮电大学学报, 2013, 36(4):39-43.

[26] 石文孝, 王继红, 赵颖, 等.动态关断资源栅格的异构无线网络基站节能算法[J].通信学报, 2012, 33(7):151-157.

[27] RITTENHOUSE G, GOYAL S, NEILSON D T, et al.Sustainable telecommunications [R].Telecom World (ITU WT), Technical Symposium at ITU, 2011.

[28] AUER G, GIANNINI V, GODOR I, et al.How much energy is needed to run a wireless network [J].IEEE commun.mag., 2011, 49(8):72-79.

[29] ARNOLD O, RICHTER F, FETTWEIS G, et al.Power consumption modeling of different base station types in heterogeneous cellular networks [C]//In:Future Network and Mobile Summit, 2010:1-8.

[30] TOMBAZ S, VASTBERG A, ZANDER J.Energy and cost-efficient ultra-high-capacity wireless access [J].IEEE wireless commun., 2011, 18(5):18-24.

[31] HUMAR I, GE X, XIANG L, et al.Rethinking energy efficiency models of cellular networks with embodied energy [J].IEEE net., 2011, 25(2):40-49.

[32] KHIRALLAH C, THOMPSON J, RASHVAND H.Energy and cost impacts of relay and femtocell deployments in long-term-evolution advanced [J].IET commun., 2011, 5(18):2617-2628.

[33] RODOPLU V, MENG T H.Bits-per-joule capacity of energy-limited wireless networks [J].IEEE trans.wireless commun., 2007, 6(3):857-865.

[34] MIAO G, HIMAYAT N, LI Y, et al.Cross-layer optimization for energy-efficient wireless communications:a survey [J].Wireless commun.and mobile compu., 2009, 9(4):529-542.

[35] MIAO G, HIMAYAT N, LI G.Energy-efficient link adaptation in frequency-selective channels[J].IEEE trans.commun., 2010, 58(2):545-554.

[36] KIM H, CHAE C, VECIANA G D, et al.A cross-layer approach to energy efficiency for adaptive mimo systems exploiting spare capacity [J].IEEE trans.wireless commun., 2009, 8(8):4264-4275.

[37] FEHSKE A, MARSCH P, FETTWEIS G.Bit per joule efficiency of cooperating base stations in cellular networks [C]//In:IEEE GLOBECOM, 2010:1406-1411.

[38] MIAO G, HIMAYAT N, LI Y, et al.Cross-layer optimization for energy-efficient wireless communications:a survey[J].Wireless communications and mobile computing, 2009, 9(4):529-542.

[39] LOUHI J T.Energy efficiency of modern cellular base stations [C]//In:29th International Telecommunications Energy Conference, 2007:475-476.

[40] CLAUSSEN H, HO L T W, PIVIT F.Effects of joint macrocell and residential picocell deployment on the network energy efficiency [C]//In:IEEE 19th International Symposium on PIMRC, 2008:1-6.

[41] BHAUMIK S, NARLIKAR G, CHATTOPADHYAY S, et al.Breathe to stay cool:adjusting cell sizes to reduce energy consumption [C]//In:Proc.of the First ACM SIGCOMM Workshop on Green Networking, 2010:41-46.

[42] RICHTER F, FEHSKE A J, FETTWEIS G P.Energy efficiency aspects of base station deployment strategies for cellular networks [C]//In:2009 IEEE 70th Vehicular Technology Conference Fall, 2009:1-5.

[43] FEHSKE A J, RICHTER F, FETTWEIS G P.Energy efficiency improvements through micro sites in cellular mobile radio networks [C]//In:2nd International Workshop on Green Communications, GLOBECOM, 2009:1-5.

[44] ASHRAF I, HO L T W, CLAUSSEN H.Improving energy efficiency of femtocell base stations via user activity detection [C]//In:IEEE WCNC, 2010:1-5.

[45] HOYDIS J, KOBAYASHI M, DEBBAH M.Green small-cell networks [J].IEEE veh.technol.mag., 2011, 6(1):37-43.

[46] ONIRETI O, HELIOT F, IMRAN M A.On the energy efficiency-spectral efficiency trade-off in the uplink of CoMP system [J].IEEE trans.wireless vommun., 2012, 11(2):556-561.

[47] HELIOT F, IMRAN M A, TAFAZOLLI R.On the energy efficiency-spectral efficiency trade-off over the MIMO Rayleigh fading channel [J].IEEE trans.vommun., 2012, 60(5):1345-1356.

[48] XIONG C, LI G Y, ZHANG S, et al.Energy and spectral efficiency tradeoff in downlink OFDMA networks [J].IEEE trans.wireless commun., 2011, 10(11):3874-3886.

[49] 朱近康.无线Mesh技术和网络[J].中兴通讯技术, 2008, 14(2):1-7.

[50] 田峰, 杨震.基于Mesh技术的网络融合与协同[J].中兴通讯技术, 2008, 14(3):13-17.

[51] PARK M, HEATH R W J R, NETTLES S M.Improving throughput and fairness for MIMO ad hoc networks using antenna selection diversity[C]//In IEEE GLOBECOM '04, 2004, 5:3363-3367.

[52] JAAFAR W, AJIB W, TABBANE S.The capacity of MIMO-based wireless Mesh networks[C]//In ICON, 2007:259-264.

[53] LIU J, PARK T Y, HOU Y T, et al.Cross-layer optimization of MIMO-based Mesh networks under orthogonal channels[C]//In Proceedings of WCNC, 2007:49-54.

[54] LI Y, MAN H, YU J, et al.Multipath routing in ad hoc networks using directional antennas[C]//In IEEE/Sarnoff SAWWC, 26-27, 2004:119-122.

[55] SPYROPOULOS A, RAGHAVENDRA C S.Energy efficient communications in Ad hoc networks using directional antennas[C]//In IEEE INFOCOM, 2002, 7(1):220-228.

[56] LIU E W, LEUNG K K.On proportional fair scheduling in multi-antenna wireless mesh networks-theoretical analysis[C]//In Proc.of IEEE GLOBECOM, 2008:1-5.

[57] 仵国锋, 季仲梅, 张静, 等.认知无线 Mesh 网络[J].信息工程大学学报, 2010, 11(4):429-433.

[58] 黄联芬.基于环境认知的无线Mesh网络MAC协议的研究[D].厦门:厦门大学, 2008.

[59] CHOWDHURY R K, AKYILDIZ F I.Cognitive wireless mesh networks with dynamic spectrum access[J].IEEE journal on selected areas in cmmommunications, 2008, 26(1):168-181.

[60] HAIDAR M, MSAKNI M, DZIONG Z.Power management and bandwidth allocation in a cognitive wireless Mesh network[C]//In 7th Annual Communications Networks and Services Research Conference, 2009:391-396.

[61] SONG L, ZHANG T, ZENG X G, et al.Fair bandwidth allocation in multi-radio cognitive wireless Mesh networks[C]//In International Conference on WCSP, 21-23, 2010:1-6.

[62] CHENG G, LIU W, LI Y Z, et al.Spectrum aware on-demand routing in cognitive radio networks[C]//In 2nd IEEE International Symposium on DySPAN, 17-20 , 2007:571-574.

[63] Energy aware radio and network technologies (EARTH)[EB/OL].https://www.ict-earth.eu/.

[64] Towards real energy-efficient network design (TREND)[EB/OL].http://www.fp7-trend.eu/.

[65] Cognitive radio and cooperative strategies for power saving in multistandard wireless devices (C2POWER)[EB/OL].http://www.ict-c2power.eu/.

[66] GRANT P.MCVE Core 5 Programme, Green radio the case for more efficient cellular base stations[R].presented at the Globecom’10, 2010.

[67] OPERA-Net.Optimising power efficiency in mobile radio networks project [EB/OL].http://opera-net.org/default.aspx.

[68] Optimising power efficiency in mobile radio networks [EB/OL].OPERA-Net PROJECT STAND # 42,2010 NEM Summit Towards Future Media Internet, Barcelona, Spain, Oct 2010, http://opera-net.org/Documents/5026v1 Opera-Net e-NEM%20Event%20 Barcelona%202010 Demos%20Presentation 290710.pdf.

[69] Wireless@KTH.ewin:Energy-efficient wireless networking [EB/OL].http://www.wireless.kth.se/research/projects/19-ewin.

[70] Energy efficiency enhancements in radio access networks [EB/OL].Wireless@KTH Research Strategy Document 2008-2010, Wireless@KTH, 2008, http://www.wireless.kth.se/images/stories/Strategy/Research plan08.pdf.

[71] BU S, YU F R, CAI Y, et al.When the smart grid meets energy-efficient communications green wireless cellular networks powered by the smart grid game [J].IEEE trans.on wireless commun., 2012, 11(8):3014-3024.

[72] BU S, YU F R, CAI Y, et al.Dynamic operation of BSs in green wireless cellular networks powered by the smart grid [C]//In:Globecom 2012 Wireless Networking Symposium, 2012:5201-5205.

[73] U S, YU F R, QIAN Y.Energy-efficient cognitive heterogeneous networks powered by the smart grid [C]//In:IEEE INFOCOM, 2013:980-988.

[74] NG D W K, LO E S, SCHOBER R.Energy-efficient resource allocation in OFDMA systems with hybrid energy harvesting base station [J].IEEE trans.on wireless vommun., 2013, 12(7):3412-3427.