Telecommunications Science ›› 2015, Vol. 31 ›› Issue (1): 106-115.doi: 10.11959/j.issn.1000-0801.2015028
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Qiuyan Lei,Zhizhong Zhang,Fang Cheng,Haonan Hu
Online:
2015-01-15
Published:
2017-02-21
Supported by:
Qiuyan Lei,Zhizhong Zhang,Fang Cheng,Haonan Hu. 5G Radio Access Network Architecture Based on C-RAN[J]. Telecommunications Science, 2015, 31(1): 106-115.
1 | Cisco Visual networking index: global mobile data traffic forecast update, 2013-2018. , 2014 |
2 | Wang C X , Haider F , Gao X Q , et al. Cellular architecture and key technologies for 5G wireless communication networks. IEEE Communications Magazine, 2014, 52(2):122~130 |
3 | Boccardi F , Heath R W , Lozano A , et al. Five disruptive technology directions for 5G. IEEE Communications Magazine, 2014, 52(2):74~80 |
4 | Kishiyama Y , Benjebbour A , Nakamura T , et al. Future steps of LTE-A: evolution towards integration of local area and wide area systems. IEEE Wireless Communications, 2013, 20(1):12~18 |
5 | Rost P , Bernardos C J , Domenico A D , et al. Cloud technologies for flexible 5G radio access networks. IEEE Communications Magazine, 2014, 52(5):68~76 |
6 | Demestichas P , Georgakopoulos A , Karvounas D , et al. 5G on the horizon: key challenges for the radio access network. IEEE Communications Magazine, 2013, 8(3):47~53 |
7 | Osserian A , Boccardi F , Braun V , et al. Scenarios for 5G mobile and wireless communications: the vision of the METIS project. IEEE Communications Magazine, 2014, 52(5):26~35 |
8 | Bangerter B , Talwar S , Arefi R , et al. Networks and devices in 5G era. IEEE Communications Magazine, 2014, 52(5):90~96 |
9 | Shuminoski T , Janevski T . Radio network aggregation for 5G mobile terminals in heterogeneous wireless networks. Proceedings of the 11th International Telecommunication in Modern Satellite, Cable and Broadcasting Services, Serbia, 2013 |
10 | 5G愿景与需求白皮书. , 2014White paper on 5G vision and requirements. , 2014 |
11 | Chen S , Zhao J . The requirements, challenges, and technologies for 5G of terrestrial mobile telecommunication. IEEE Communication Magazine, 2014, 52(5):36~43 |
12 | Chih-Lin I C , Han S F , et al. Toward green and soft: a 5G perspective. IEEE Communications Magazine, 2014, 52(2):66~73 |
13 | C-RAN:无线接入网绿色演进白皮书. , 2014C-RAN: the road towards green RAN CMCC white paper. , 2014 |
14 | 江甲沫, 彭木根, 李远 等. 智能适配的新型无线网络架构. IMT-2020(5G)技术工作组第四次会议, 北京,中国, 2013 Jiang J M , Peng M G , Li Y et al. IMT-2020_TECH_13075 Intelligent Adaptive Wireless Network Architecture. Proceedings of The 4th Meeting of the IMT-2020(5G)Technology Work Group, Beijing, China, 2013 |
15 | Sudip Misra , Sankar Narayan Das , Mohanmmad S Obaidat . Context-aware quality of service in wireless sensor networks. IEEE Communications Magazine, Nanjing, China, 2014,52(6): 16~23 |
16 | Chu W J , Mo T , Cui J , et al. A context-aware services development model. Proceedings of 2012 International Joint Conference on Service Sciences, Shanghai, China, 2012 |
17 | Golrezaei N , Shanmugan K , Dimakis A G , et al. Femto caching:wireless video content delivery through distributed caching helpers. Proceedings of IEEE INFOCOM, Orlando, 2012 |
18 | Wang X F , Chen M , Ksentini A , et al. Cache in the air:exploiting content caching and delivery techniques for 5G systems. IEEE Communications Magazine, 2014, 52(2):131~139 |
19 | Feng D Q , Lu L , Yi Y W , et al. Device-to-device communications in cellular networks. IEEE Communications Magazine, 2014, 52(4):49~55 |
20 | Wen S , Zhu X Y , Lin Y C , et al. Achievable transmission capacity of relay-assisted device-to-device(D2D)communication underlay cellular networks. Proceedings of 2013 IEEE the 78th Vehicular Technology Conference, Las Vegas, USA, 2013 |
21 | 尤肖虎, 潘志文, 高西奇 等. 5G移动通信发展趋势与若干关键技术. 中国科学, 2014,5(44): 551~563 You X H , Pan Z W , Gao X Q . et al. The 5G mobile communication: the development trends and its emerging key techniques. Science China, 2013,44(5): 551~563 |
22 | Nokia Siemens Networks. 2020: Beyond 4G Radio Evolution for the Gigabit Experience. Nokia Siemens Networks Beyond 4G White Paper, 2011 |
23 | Hwang I , Song B Y , Soliman S S . A holistic view on hyper-dense heterogeneous and small cell networks. IEEE Communication Magazine, 2013, 51(6):20~27 |
24 | Baldemair R , Dahlman E , Parkvall S , et al. Future wireless communications. Proceedings of IEEE Vehicular Technology Conference(VTC spring), Seoul, Korea, 2013 |
25 | Hoydis J , Kobayashi M , Debbah M . Green small cell networks: a cost and energy-efficient way of meeting the future traffic demands. IEEE Vehicular Technology Magazine, 2011, 1(6):37~43 |
26 | 赵慧玲, 冯明, 史凡 . SDN—未来网络演进的重要趋势. 电信科学, 2012,28(11): 1~5 Zhao H L , Feng M , Shi F . SDN, key trend of the future network evolution. Telecommunications Science, 2012,28(11): 1~5 |
27 | Peng G . CDN: content distribution network. , 2014 |
28 | Jones S T . IPTV delivery architecture. Proceedings of ITU-T IPTV Global Technical Workshop, Seoul, Korea, 2006 |
29 | Abedini N , Shakkottai S . Content caching and scheduling in wireless networks with elastic and inelastic traffic. IEEE/ACM Transactions Networking, 2014, 3(22):864~874 |
30 | Cheng C M , Kung H T , Lin C K , et al. Rainbow: a wireless medium access control using network coding for multi-hop content distribution. Proceedings of IEEE Military Communications Conference(MilCom), San Diego, USA, 2008 |
31 | Chaudet C , Haddad Y . Wireless software defined networks:challenges and opportunities. Proceedings of IEEE International Conference on Microwaves, Communications, Antennas and Electronics Systems(COMCAS), Tel Aviv, Israel, 2013 |
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