[1] ITU-R WP5D TD-0591.Naming for international mobile telecommunications[EB/OL].Jun.http://www.itu.int/pub/R-RES-R.2015.56.
[2] ROH W,SEOL Jiyun,PARK Jeongho,et al.Millimeter-wave beamforming as an enabling technology for 5G cellular communications: theoretical feasibility and prototype results[J].IEEE Communications Magazine,2014,52(2): 106-113.
[3] RAPPAPORT T S,MACCARTNEY G R,SAMIMI M K,et al.Wideband Millimeter-Wave Propagation Measurements and Channel Models for Future Wireless Communication System Design[J].IEEE Transactions on Communications,2015,63(9): 3029-3056.
[4] MALTSEV A,MASLENNIKOV R.SEVASTYANOV A,et al.Experimental investigations of 60 GHz wireless systems in office environment[J].IEEE Journal on Selected Areas in Communications,2009,27(8): 1488-1499.
[5] Huawei to bring 73GHz mmWave Mu-MIMO live demo to Deutsche Telekom[EB/OL].http://www.huawei.com/en/news/2016/2/73GHzmm-Wave-Mu-MIM-live-demo.2016.
[6] FCC Fact Sheet: Spectrum frontiers order to identify,open up vast amounts of new high-band spectrum for next generation (5g) wireless broadband (as adopted)[EB/OL].https://www.fcc.gov/document/rules-facilitate-next-generation-wireless-technologies.2016.
[7] IMT-2020(5G).White paper on 5G wireless Technology architecture[R/OL].http://www.imt-2020.org.cn/zh/documents/download/63.2015.
[8] METIS D1.4 V1.0 ICT-317669.METIS Channel Models[R/OL].https://www.metis2020.com/.2015.
[9] ITU-R M.2376-0.Technical feasibility of IMT in bands above 6 GHz[R/OL].http://www.itu.int/pub/R-REP-M.2376.2016.
[10] 3GPP TR 38.900.Study on channel model for frequency spectrum above 6 GHz[S].v14.0.02016.
[11] H2020-ICT-671650-mmMAGIC/D2.1.Measurement Campaigns and Initial Channel Models for Preferred Suitable Frequency Ranges[R/OL].https://bscw.5g-mmmagic.eu/pub/bscw.cgi/d94832/mmMAGIC_D2-1.pdf.2016.
[12] 5GCM White Paper.5G Channel Model for bands up to 100 GHz[R/OL].v2.0,http://www.5gworkshops.com/.2016.
[13] WINNER II D1.1.2.Channel models[R/OL].IST-4-027756 V1.2,09.http://www.istwinner.org/deliverables.html.2007.
[14] ITU-R M.2135-1.Guidelines for evaluation of radio interface technologies for IMT-Advanced[S].International Telecommunication Union (ITU),Geneva,Switzerland,Technical Report,2009.
[15] 3GPP TR36.873,Study on 3d channel model for LTE (v12.1.0)[S].2015.
[16] S Payami,F Tufvesson.Channel measurements and analysis for very large array systems at 2.6 GHz[A].Proceedings of the 6th European Conference on Antennas and Propagation (EuCAP'12)[C].Prague,Czech Republic,2012,433-437.
[17] SALEH A,VALENZUELA R.A statistical model for indoor multipath propagation[J].IEEE Journal on Selected Areas in Communications,1987,5(2):128-137.
[18] BREIT G,et al.IEEE P802.11 Wireless LANs-TGac Channel Model Addendum[S/OL].IEEE 802.11-09/0308r12,https://mentor.ieee.org/802.11/dcn/09/11-09-0308-12-00ac-tgac-channel-model-addendum-document.doc.2010.
[19] 吴志忠.移动通信无线电波传播[M].北京:人民邮电出版社,2002.219-262.
[20] MALTSEV A,ERCEG V,PERAHIA E,et al.Channel Models for 60 GHz WLAN Systems[S/OL].IEEE 802.11ad 09/0334r8,https://mentor.ieee.org/802.11/dcn/09/11-09-0334-08-00ad-channel-models-for-60-ghz-wlan-systems.doc.2010.
[21] MiWEBA D5.1.Channel Modeling and Characterization[R/OL].v1.0,FP7-ICT-608637,http://www.miweba.eu.2014.
[22] GUSTAFSON C,HANEDA K,WYNE S,et al.On mm-wave multi-path clustering and channel modeling[J].IEEE Transactions on Antennas and Propagation,2014,62(3): 1445-1455.
[23] Zhu Jin,Wang Haiming,Hong Wei,Large-scale fading characteristics of indoor channel at 45-GHz band[J].IEEE Antennas and Wireless Propagation Letters,2015,14:735-738.
[24] GARCIA A P,KOTTERMAN W,THOMÄ R S.60 GHz in-cabin real-time channel sounding[A].3rd International Workshop on Broadband MIMO Channel Measurement and Modeling (IWonCMM)[C].Xi'an China,2009,1-5.
[25] MINSEOK K,TAKADA J,KONISHI Y,et al.Novel scalable MIMO channel sounding technique and measurement accuracy evaluation with transceiver impairments[J].IEEE Transactions on Instrumentation and Measurement,2012,61(12): 3185-3197.
[26] YONG Sukhiong.IEEE P802.15 wireless personal area networks-TG3c channel modeling sub-committee final report[R/OL].IEEE 15-07-0584-01-003c,https://mentor.ieee.org/802.15/dcn/07/15-07-0584-01-003c-tg3c-channel-modeling-sub-committee-final-report.doc.2007.
[27] PETER M W M,RACEALA-MOTOC W K M,FELBECKER R.Analyzing human body shadowing at 60 GHz: Systematic wideband MIMO measurements and modeling approaches[A].IEEE 6th European Conference on Antennas and Propagation(EuCAP)[C].Prague,Czech,2012.468-472.
[28] RAISANEN A V,ALA-LAURINAHO J,HANEDA K.Studies on E-band antennas and propagation[A].2013 Loughborough Antennas & Propagation Conference (LAPC)[C].Loughborough,UK,2013.176-180.
[29] MINSEOK Kim,KONISHI,Y,CHANG Yu-yuan,et al.Large scale parameters and double-directional characterization of indoor wideband radio multipath channels at 11 GHz[J].IEEE Transactions on Antennas and Propagation,2014,62(1): 430-441.
[30] LEI Mingyang,ZHANG Jianhua,TIAN Lei,et al.28-GHz indoor channel measurements and analysis of propagation characteristics[A].IEEE 25th International Symposium on Personal,Indoor and Mobile Radio Communications (PIMRC)[C].Washington D.C,USA,2014.208-212.
[31] ZHANG Nan,YIN Xuefeng,LU Stan X,et al.Measurement-based angular characterization for 72 GHz propagation channels in indoor environments[A].IEEE Global Telecommunications Conference (GLOBECOM)[C].Austin,TX USA,2014.370-376.
[32] YIN Xuefeng,LING Cen,KIM Myung-Don.Experimental multipath-cluster characteristics of 28-GHz propagation channel[J].IEEE Access,2015,3:3138-3150.
[33] LUO Jian,LU Stan,THOMÄ R,et al.Channel sounding for 802.11ay[R/OL].IEEE 802.11-15/0631r0,https://mentor.ieee.org/802.11/dcn/15/11-15-0631-00-00ay-channel-sounding-for-802-11ay.pptx.2015.
[34] METIS D1.2,Initial channel models based on measurements[R/OL].v1.0,https://www.metis2020.com/.2014.
[35] SAMIMI M K,RAPPAPORT T S.Ultra-wideband statistical channel model for non line of sight millimeter-wave urban channels[A].IEEE Global Communications Conference (GLOBECOM)[C].Austin,TX USA,2014.3483-3489.
[36] THOMAS T A,NGUYEN Huan Cong,MACCARTNEY G.R,et al.3D mmWave channel model proposal[A].IEEE Vehicular Technology Conference (VTC Fall)[C].Vancouver,Canada,2014.1-6.
[37] SUN S,RAPPAPORT T S,THOMAS T A,et al.A preliminary 3D mm wave indoor office channel model.Computing[A].2015 International Conference on Networking and Communications (ICNC)[C].Garden Grove,CA USA,2015.26-31. |