通信学报 ›› 2014, Vol. 35 ›› Issue (8): 184-197.doi: 10.3969/j.issn.1000-436x.2014.08.023
黄韬,刘江,霍如,魏亮,刘韵洁
出版日期:
2014-08-25
发布日期:
2017-06-29
基金资助:
Tao HUANG,Jiang LIU,Ru HUO,Liang WEI,Yun-jie LIU
Online:
2014-08-25
Published:
2017-06-29
Supported by:
摘要:
现有互联网正面临着前所未有的挑战,包括可扩展性、安全性、管控性、移动性、内容分发能力、绿色节能等一系列问题,难以通过增量式的研究模式彻底解决。在这样的背景下,创新型的未来网络体系架构研究成为当前全球关注的热点领域。通过介绍全球在该领域的研究进展情况,阐述当前该领域主要的研究成果,总结分析该领域的研究发展趋势与核心问题,期望对国内该领域的研究起到参考和帮助。
黄韬,刘江,霍如,魏亮,刘韵洁. 未来网络体系架构研究综述[J]. 通信学报, 2014, 35(8): 184-197.
Tao HUANG,Jiang LIU,Ru HUO,Liang WEI,Yun-jie LIU. Survey of research on future network architectures[J]. Journal on Communications, 2014, 35(8): 184-197.
[56] | KIM D , KIM J , KIM Y , et al. Mobility support in content centric networks[A]. Proceedings of the Second Edition of the ICN Workshop on Information-Centric Networking[C]. Helsinki, Finland, 2012. 13-18. |
[57] | LEE J , CHO S , KIM D . Device mobility management in con-tent-centric networking[A]. IEEE Communications Magazine[C]. 2012, 50(12): 28-34. |
[58] | LEE J , KIM D Y , JANG M , et al. Mobility management for mobile-consumer devices in content centric networking (CCN)[A]. 2012 IEEE International Conference on Consumer Electronics[C] Las Vegas, USA, 2012. 502-503. |
[59] | TYSON G , SASTRY N , RIMAC I , et al. A survey of mobility in in-formation-centric networks: challenges and research directions[A]. Proceedings of the 1st ACM Workshop on Emerging Name-Oriented Mobile Networking Design-Architecture, Algorithms, and Applica-tions[C] Hilton Head, SC, USA, 2012. 1-6. |
[60] | VELTRI L , MORABITO G , SALSANO S , et al. Supporting informa-tion-centric functionality in software defined networks[A]. IEEEInternational Conference on Communications (ICC)[C] Ottawa, ON, Canada, 2012. 6645-6650. |
[61] | C-flow: content-oriented networking over OpenFlow[EB/OL]. . 2012. |
[1] | FELDMANN A . Internet clean-slate design: what and why[J]. ACM SIGCOMM Computer Communication Review, 2007, 37(3): 59-64. |
[2] | PAUL S , PAN J , JAIN R . Architectures for the future networks and the next generation internet: a survey[J]. Computer Communications, 2011, 34(1): 32-42. |
[3] | GAVRAS A , KARILA A , FDIDA S , et al. Future internet research and experimentation: the fire initiative[J]. ACM SIGCOMM Computer Communication Review, 2007, 37(3): 89-92. |
[4] | AHLGREN B , D'AMBROSIO M , DANNEWITZ C , et al. Second netinf architecture description[J]. FP7-ICT-2007-1- 216041/D-6.2, 4WARD Project, 2010. |
[5] | CASADO M , FREEDMAN M J , PETTIT J , et al. Ethane: taking control of the enterprise[J]. ACM SIGCOMM Computer Communica-tion Review, 2007, 37(4): 1-12. |
[6] | MCKEOWN N , ANDERSON T , BALAKRISHNAN H , et al. Open-Flow: enabling innovation in campus networks[J]. ACM SIGCOMM Computer Communication Review, 2008, 38(2): 69-74 . |
[7] | Software-defined networking: the new norm for networks[EB/OL]. . 2012. |
[8] | Element management systems[EB/OL]. . 2012. |
[9] | GUDE N , KOPONEN T , PETTIT J , et al. NOX: towards an operating system for networks[J]. ACM SIGCOMM Computer Communication Review, 2008,38 (3): 105-110. |
[10] | ERICKSON D . The beacon openflow controller[A]. Proceedings of the Second ACM SIGCOMM Workshop on Hot Topics in Software Defined Networking[C]. Hong Kong, China, 2013. 13-18. |
[11] | TOOTOONCHIAN A , GANJALI Y . Hyperflow: a distributed control plane for OpenFlow[A]. Proceedings of the 2010 Internet Network Management Conference on Research on Enterprise Networking[C] San Jose, CA, USA: USENIX Association, 2010. |
[12] | KOPONEN T , CASADO M , GUDE N , et al. Onix: a distributed con-trol platform for large-scale production networks[A]. Proceedings of the 9th USENIX Conference on Operating Systems Design and Im-plementation[C]. Berkeley, CA, USA: USENIX Association, 2010. 1-6. |
[13] | TAM A S W , XI K , CHAO H J . Use of devolved controllers in data center networks[A]. IEEE Conference on Computer Communications Workshops (INFOCOM WKSHPS)[C] Shanghai, China, 2011. 596-601. |
[14] | OpenDaylight[EB/OL]. . 2013. |
[15] | YU M , REXFORD J , FREEDMAN M J , et al. Scalable flow-based networking with difane[J]. ACM SIGCOMM Computer Communica-tion Review, 2010,40 (4): 351-362. |
[16] | CURTIS A R , MOGUL J C , TOURRILHES J , et al. DevoFlow: scal-ing flow management for high-performance networks[A]. ACM SIGCOMM Computer Communication Review[C]. Toronto, on, Can-ada, 2011. 254-265. |
[17] | JACOBSON V , SMETTERS D K , THORNTON J D , et al. Network-ing named content[J]. Communications of the ACM, 2012,55 (1): 117-124. |
[18] | ZHANG L , ESTRIN D , BURKE J , et al. Named Data Networking (NDN) Project[J]. RelatórioTécnico NDN-0001, Xerox Palo Alto Re-search Center-PARC, 2010. |
[19] | SMETTERS D , JACOBSON V . Securing network content[R]. PARC, 2009. |
[20] | ZHANG G , LI Y , LIN T . Caching in information centric networking: a survey[J]. Computer Networks, 2013,57 (16): 3128-3141. |
[21] | PSARAS I , CLEGG R G , LANDA R , et al. Modelling and Evaluation of CCN-Caching Trees[J]. Springer Berlin Heidelberg, 2011. 78-91. |
[22] | CAROFIGLIO G , GALLO M , MUSCARIELLO L , et al. Modeling data transfer in content-centric networking[A]. Proceedings of the 23rd International Teletraffic Congress International Teletraffic Congress[C]. San Francisco, CA, USA, 2011. 111-118. |
[23] | MUSCARIELLO L , CAROFIGLIO G , GALLO M . Bandwidth and storage sharing performance in information centric networking[A]. Proceedings of the ACM SIGCOMM Workshop on Information Cen-tric Networking[C] Toronto, Canada, 2011. 26-31. |
[24] | ROSSI D , ROSSINI G . Caching Performance of Content Centric Networks Under Multi-path Routing (and more)[R]. Relatóriotécnico, Telecom ParisTech, 2011. |
[25] | CAROFIGLIO G , GEHLEN V , PERINO D . Experimental evaluation of memory management in content-centric networking[A]. IEEE In-ternational Conference on Communications (ICC)[C]. Kyoto, Japan, 2011. 1-6. |
[26] | PSARAS I , CHAI W , PAVLOU G . In-network cache management and resource allocation for information-centric networks[J]. IEEE Transac-tions on Parallel and Distributed Systems, 2013. (99) 1. |
[27] | WANG S , BI J , WU J , et al. Could in-network caching benefit infor-mation-centric networking[A]. Proceedings of the 7th Asian Internet Engineering Conference[C] Bangkok, Thailand, 2011. 112-115. |
[28] | MING Z , XU M , WANG D . Age-based cooperative caching in infor-mation-centric networks[A]. IEEE Conference on Computer Commu-nications Workshops (INFOCOM WKSHPS)[C] Orlando, FL, USA, 2012. 268-273. |
[29] | HE D , CHAI W K , PAVLOU G . Leveraging in-network caching for efficient content delivery in content-centric network[A]. London Communication Symposium[C] London, England, 2011. |
[30] | CHAI W K , HE D , PSARAS I , et al. Cache “less for more” in Infor-Mation-Centric Networks[M. Springer Berlin Heidelberg, 2012. |
[31] | ZHU Y , CHEN M , NAKAO A . CONIC: content-oriented network with indexed caching[A]. INFOCOM IEEE Conference on Computer Communications Workshops[C] San Diego, CA, USA, 2010. 1-6. |
[32] | PSARAS I , CHAI W K , PAVLOU G . Probabilistic in-network caching for information-centric networks[A]. Proceedings of the Second Edi-tion of the ICN Workshop on Information Centric Networking[C]. Helsinki, Finland, 2012. 55-60. |
[33] | LI Z , SIMON G . Time-shifted TV in content centric networks: the case for cooperative in-network caching[A]. IEEE International Conference on Communications (ICC)[C] Kyoto, Japan, 2011. 1-6. |
[34] | LIU Y , SIMON G . Peer-assisted time-shifted streaming systems: de-sign and promises[A]. IEEE International Conference on Communica-tions (ICC)[C] Kyoto, Japan, 2011. 1-5. |
[35] | CHO K , LEE M , PARK K , et al. WAVE: Popularity-based and col-laborative in network caching for content-oriented networks[A]. IEEE Conference on Computer Communications Workshops[C] Orlando, FL, USA, 2012. 316-321. |
[36] | FRICKER C , ROBERT P , ROBERTS J , et al. Impact of traffic mix on caching performance in a content centric network[A]. IEEE Confer-ence on Computer Communications Workshops[C] Orlando, FL, USA, 2012. 310-315. |
[37] | WANG L , HOQUE A , YI C , et al. OSPFN: An OSPF Based Routing Protocol for Named Data Networking[R]. NDN-0003, University of Memphis and University of Arizona, 2012. |
[38] | HOQUE A K M , AMIN S O , ALYYAN A , et al. NISR: named-data link state routing protocol[A]. Proceedings of the 3rd ACM SIG-COMM Workshop on Information-centric Networking[C]. Hong Kong, China, 2013. 15-20. |
[39] | DAI H , LU J , WANG Y , et al. A two-layer intra-domain routing scheme for named data networking[A]. IEEE Global Communications Conference[C] Anaheim, CA, USA, 2012. 2815-2820. |
[40] | SHANBHAG S , SCHWAN N , RIMAC I , et al. SoCCeR: services over content-centric routing[A]. Proceedings of the ACM SIGCOMM Workshop on Information-Centric Networking[C]. Toronto, Canada, 2011. 62-67. |
[41] | YE R , XU M . Neighbor cache explore routing strategy in named data network[J]. Journal of Frontiers of Computer Science & Technolog, 2012, 6(7): 593-601. |
[42] | HE J J , WANG G Q , LIU J . A content-popularity-based ACO mecha-nism for content centric networking routing[A]. Proceedings of the 14th International Conference on Communication Technology[C] Chengdu, China, 2012. 9-11. |
[43] | KHAN A Z , BAQAI S , DOGAR F R . QoS aware path selection in content centric networks[A]. 2012 IEEE International Conference on Communications[C] Ottawa, ON, Canada, 2012. 2645-2649. |
[44] | CHENGMING L I , WENJING L I U , OKAMURA K . A greedy ant colony forwarding algorithm for named data networking[J]. Proceed-ings of the Asia-Pacific Advanced Network, 2013, 34: 17-26. |
[45] | YUAN S , LIN T , ZHANG G , et al. A future anycast routing scheme for information centric network[A]. 2012 18th Asia-Pacific Confer-ence on Communications (APCC)[C]. Jeju Island, Korea, 2012. 173-178. |
[46] | EUM S , NAKAUCHI K , MURATA M , et al. CATT: potential based routing with content caching for ICN[A]. Proceedings of the Second Edition of the ICN Workshop on Information-centric Networking[C]. Helsinki, Finland, 2012. 49-54. |
[47] | MELAZZI N B , DETTI A , POMPOSINI M , et al. Route discovery and caching: a way to improve the scalability of information-centric networking[A]. IEEE Global Communications Conference (GLOBE-COM)[C] Anaheim, CA, USA, 2012. 2701-2707. |
[48] | WONG W , GIRALDI M , MAGALHAES M F , et al. Content routers:fetching data on network path[A]. 2011 IEEE International Conference on Communications (ICC)[C] Kyoto, Japan, 2011. 1-6. |
[49] | DAI J , HU Z , LI B , et al. Collaborative hierarchical caching with dy-namic request routing for massive content distribution[A]. Proceedings IEEE INFOCOM[C]. Orlando, FL, USA, 2012. 2444-2452. |
[50] | GUO S , XIE H , SHI G . Collaborative Forwarding and Caching in Content Centric Networks[A]. Springer Berlin Heidelberg, 2012. |
[51] | MEISEL M , PAPPAS V , ZHANG L . Listen first, broadcast later:Topology-agnostic forwarding under high dynamics[A]. Annual Con-ference of International Technology Alliance in Network and Informa-tion Sciences[C] Aberdeen, England, 2010. 1-8. |
[52] | LI C , OKAMURA K , LIU W . Ant colony based forwarding method for content-centric networking[A]. 27th International Conference on Advanced Information Networking and Applications Workshops (WAINA)[C] Barcelona, Spain, 2013. 306-311. |
[53] | CHENGMING L I , WENJING L I U , OKAMURA K . OKAMURA K. A greedy ant colony forwarding algorithm for Named data networking[A]. Pro-ceedings of the Asia-Pacific Advanced Network[C]. 2013. 17-26. |
[54] | YI C , AFANASYEV A , WANG L , et al. Adaptive forwarding in named data networking[A]. ACM SIGCOMM Computer Communica-tion Review[C]. 2012, 42(3): 62-67. |
[62] | The challenges of SDN/OpenFlow in an operational and large-scale net-work[EB/OL]. . 2012. |
[55] | LEE J , KIM D . Proxy-assisted content sharing using content centric networking (CCN) for resource-limited mobile consumer devices[A]. IEEE Transactions on Consumer Electronics[C]. 2011, 57(2): 477-483. |
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