Journal on Communications ›› 2015, Vol. 36 ›› Issue (7): 48-59.doi: 10.11959/j.issn.1000-436x.2015096
• Academic paper • Previous Articles Next Articles
Yu-xiang HU,Fang DONG,Peng WANG,Ju-long LAN
Online:
2015-07-25
Published:
2015-07-25
Supported by:
Yu-xiang HU,Fang DONG,Peng WANG,Ju-long LAN. Research on polymorphic routing mechanism for customized diversified services[J]. Journal on Communications, 2015, 36(7): 48-59.
[1] | 兰巨龙, 程东年, 胡宇翔 . 可重构信息通信基础网络体系研究[J]. 通信学报, 2014,35(1): 187-198. LAN J L , CHENG D N , HU Y X . Research on reconfigurable information communication basal network architecture[J]. Journal on Communications, 2014,35(1): 187-198. |
[2] | VOGT C . Six/one router:a scalable and backwards compatible solution for provider-independent addressing[A]. ACM SIGCOMM MobiArch’08[C]. Seattle, 2008. 13-18. |
[3] | LUO H B , ZHANG H K , ZUKERMAN M . Decoupling the design of identifier-to-locator mapping services from identifiers[J]. Computer Networks, 2011,55(4): 959-974. |
[4] | CHENG Y , ALEX A , LAN W , et al. Adaptive forwarding in named data networking[J]. ACM Computer Communication Reviews, 2014,42(3): 62-67. |
[5] | TROSSEN D , SARELA M , SOLLINS K . Arguments for an information-centric internetworking architecture[J]. SIGCOMM Computer Communication Reviews, 2010,40(2): 26-33. |
[6] | SCHAHRAM D , REINHARD P , VADIM S , et al. Quality-aware service-oriented data integration:requirements,state of the art and open challenges[J]. ACM SIGMOD Record, 2012,41(1): 11-19. |
[7] | STOICA I , ADKINS D , ZHUANG S , et al. Internet indirection infrastructure[A]. Conference on Applications,Technologies,Architectures,and Protocols for Computer Communications of ACM[C]. 2002. 73-86. |
[8] | BALAKRISHNAN H . A layered naming architecture for the Internet[A]. Proc of ACM SIGCOMM[C]. 2004. 343-352. |
[9] | FARINACCI D . Locator/ID Separation Protocol(LISP)[S]. Internet-draft,draft-farinacci-lisp-00.txt, 2007. |
[10] | MOSKOWITZ R , NIKANDER P . RFC 4423:Host Identity Protocol(HIP)Architecture[S]. Internet Request for Comments, 2006. |
[11] | HOQUE M , AMIN S O , ALYYAN A , et al. NLSR:named-data link state routing protocol[A]. The 3rd ACM SIGCOMM Workshop on Information-Centric Networking[C]. 2013. 15-20. |
[12] | ANAND A , DOGAR F , HAN D , et al. XIA:an architecture for an evolvable and trustworthy internet[A]. The Tenth ACM Workshop on Hot Topics in Networks (HotNets-X)[C]. Cambridge, 2011. |
[13] | RAYCHAUDHURI D , NAGARAJA K , VENKATARAMANI A . MobilityFirst:a robust and trustworthy mobility-centric architecture for the future internet[J]. ACM Mobile Computing and Communications Review, 2012,16(3): 2-13. |
[14] | ANDERSON T , BIRMAIV K , BROBERG R , et al. The NEBULA future Internet architecture[J]. Lecture Notes in Computer Science, 2013,7858: 16-26. |
[15] | WU J , REN G , BI J , et al. A First-Hop Source Address Validation Solution for SAVA[S]. IETF Internet Draft,draft-wu-savasolution-firsthop-eap-00.txt, 2007. |
[16] | LUO H B , QIN Y J , ZHANG H K . A DHT-based identifier-to-locator mapping approach for a scalable internet[J]. IEEE Trans Parallel Distrib Syst, 2009,20(12): 1790-1802. |
[17] | LI S Y R , SUN Q T . Network coding theory via commutative algebra[J]. IEEE Trans on Information Theory, 2011,56(1): 403-415. |
[18] | HU Y X , LAN J L , WU J X . Providing personalized converged services based on flexible network reconfiguration[J]. Science China Information Sciences, 2011,54(2): 334-347. |
[19] | 程东年, 汪斌强, 王保进 等. 网络结构自调整的柔性内涵初探[J]. 通信学报, 2012,33(8): 214-222. CHENG D N , WANG B Q , WANG B J , et al. Preliminary study on the connotation of flexibility in dynamically reconfigurable networks[J]. Journal on Communications, 2012,33(8): 214-222. |
[20] | FREEDMAN M J , ARYE M , GOPALAN P , et al. Serval:an end-host stack for service-centric networking[A]. Proc of USENIX NSDI[C]. 2012. 1-14. |
[21] | JACOBSON V , SMETTERS D K , THORNTON J D , et al. Networking named content[A]. Proc of ACM CoNEXT[C]. 2009. 1-6. |
[22] | KOPONEN T , CHAWLA M , CHUN B G , et al. A data-oriented (and beyond) network architecture[A]. Proc of ACM SIGCOMM[C]. 2007. |
[1] | Hao CHEN, Yuan YANG, Mingwei XU, Dan PEI, Yilin YOU. Parallel orchestration and deployment system for scalable heterogeneous service function chain supporting polymorphic network [J]. Journal on Communications, 2022, 43(9): 1-11. |
[2] | Julong LAN, Di ZHU, Dan LI. Intelligent prediction method of virtual network function resource capacity for polymorphic network service slicing [J]. Journal on Communications, 2022, 43(6): 143-155. |
[3] | Sijin YANG, Lei ZHUANG, Yu SONG, Jiaxing WANG, Xinyu YANG. Intelligent scheduling mechanism of time-sensitive network modal in polymorphic network [J]. Journal on Communications, 2022, 43(5): 82-91. |
[4] | Yuxiang HU, Zixi CUI, Ziyong LI, Yongji DONG, Pengshuai CUI, Jiangxing WU. Construction technologies of polymorphic network environment based on codesign of domain-specific software/hardware [J]. Journal on Communications, 2022, 43(4): 3-13. |
[5] | Jinlin WANG, Li’nan JING, Xiao CHEN, Jiali YOU. Programmable data processing method and system design for polymorphic network [J]. Journal on Communications, 2022, 43(4): 14-25. |
[6] | Shuai GAO, Xindi HOU, Ningchun LIU, Hongke ZHANG. Research on heterogeneous identifier namespace management and control architecture in polymorphic network environment [J]. Journal on Communications, 2022, 43(4): 26-35. |
[7] | Ruyun ZHANG, Geyang XIAO, Qihe SHAN, Tao ZOU, Dan LI, Fei TENG. Communication topology reconstruction method for multi-agent cooperative control in polymorphic networks [J]. Journal on Communications, 2022, 43(4): 50-59. |
[8] | Weijing QI, Qingyang SONG, Lei GUO. Dual time scale resource allocation for RAN slicing in software-defined oriented polymorphic IoV [J]. Journal on Communications, 2022, 43(4): 60-70. |
[9] | Jingyu WANG, Zirui ZHUANG. Research on a knowledge-defined polymorphic network attainable service architecture [J]. Journal on Communications, 2022, 43(4): 71-82. |
[10] | Yuxiang HU,Peng YI,Penghao SUN,Jiangxing WU. Research on the full-dimensional defined polymorphic smart network [J]. Journal on Communications, 2019, 40(8): 1-12. |
[11] | Jie WANG,Xiao-xian HE. Automated polymorphic worm signature generation approach based on seed-extending [J]. Journal on Communications, 2014, 35(9): 12-19. |
[12] | Ju-long LAN,Dong-nian CHENG,Yu-xiang HU. Research on reconfigurable information communication basal network architecture [J]. Journal on Communications, 2014, 35(1): 128-139. |
[13] | Jie WANG,Jian-xin WANG,Xu-chong LIU. Novel approach based on neighborhood relation signature against polymorphic internet worms [J]. Journal on Communications, 2011, 32(8): 150-158. |
[14] | Yong TANG,Shu-ning WEI,Hua-ping HU,Xi-cheng LU. Noise-tolerant approach for automatically generating signatures of network attacks [J]. Journal on Communications, 2009, 30(12): 124-131. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||
|