WANG Shuai , LIU Kai , YAN Jian , KUANG Linling . Storage compression algorithm for multiprotocol flow tables in software-defined satellite networks[J]. Journal of Tsinghua University(Science and Technology), 2022 , 62(5) : 926 -933 . DOI: 10.16511/j.cnki.qhdxxb.2021.22.042

[1] DU P Y, NAZARI S, MENA J, et al. Multipath TCP in SDN-enabled LEO satellite networks[C]//MILCOM 2016:2016 IEEE Military Communications Conference. Baltimore, USA, 2016:354-359.
[2] DU J, GELENBE E, JIANG C X, et al. Contract design for traffic offloading and resource allocation in heterogeneous ultra-dense networks[J]. IEEE Journal on Selected Areas in Communications, 2017, 35(11):2457-2467.
[3] DU J, JIANG C X, ZHANG H J, et al. Auction design and analysis for SDN-based traffic offloading in hybrid satellite-terrestrial networks[J]. IEEE Journal on Selected Areas in Communications, 2018, 36(10):2202-2217.
[4] XU S, WANG X W, HUANG M. Software-defined next-generation satellite networks:Architecture, challenges, and solutions[J]. IEEE Access, 2018, 6:4027-4041.
[5] JIANG C X, GE N, KUANG L L. AI-enabled next-generation communication networks:Intelligent agent and AI router[J]. IEEE Wireless Communications, 2020, 27(6):129-133.
[6] MCKEOWN N, ANDERSON T, BALAKRISHNAN H, et al. OpenFlow:Enabling innovation in campus networks[J]. ACM SIGCOMM Computer Communication Review, 2008, 38(2):69-74.
[7] GE J G, CHEN Z, WU Y L, et al. H-SOFT:A heuristic storage space optimisation algorithm for flow table of OpenFlow[J]. Concurrency and Computation:Practice and Experience, 2015, 27(13):3497-3509.
[8] 鄂跃鹏, 陈智, 葛敬国, 等. 一种高效的OpenFlow流表存储与查找实现方法[J]. 中国科学:信息科学, 2015, 45(10):1280-1288. E Y P, CHEN Z, GE J G, et al. An efficient implementation of storage and lookup for flow tables in OpenFlow[J]. Scientia Sinica Informationis, 2015, 45(10):1280-1288. (in Chinese)
[9] 姜腊林, 张亚南, 熊兵. 一种高效的OpenFlow流表拆分压缩算法[J]. 小型微型计算机系统, 2018, 39(2):310-314. JIANG L L, ZHANG Y N, XIONG B. Efficient OpenFlow flow table splitting and compressing algorithm[J]. Journal of Chinese Computer Systems, 2018, 39(2):310-314. (in Chinese)
[10] 孙鹏浩, 兰巨龙, 陆肖元, 等. 一种基于匹配域裁剪的包分类规则集压缩方法[J]. 电子与信息学报, 2017, 39(5):1185-1192. SUN P H, LAN J L, LU X Y, et al. Field-trimming compression model for rule set of packet classification[J]. Journal of Electronics & Information Technology, 2017, 39(5):1185-1192. (in Chinese)
[11] 王孝龙, 刘勤让, 林森杰, 等. 基于独立规则集位提取的包分类压缩方法[J]. 计算机应用, 2018, 38(8):2375-2380. WANG X L, LIU Q R, LIN S J, et al. Compression method based on bit extraction of independent rule sets for packet classification[J]. Journal of Computer Applications, 2018, 38(8):2375-2380. (in Chinese)
[12] ZHANG C Q, SUN P H, HU G W, et al. RETCAM:An efficient TCAM compression model for flow table of OpenFlow[J]. Journal of Communications and Networks, 2020, 22(6):484-492.
[13] 刘中金, 李勇, 苏厉, 等. TCAM存储高效的OpenFlow多级流表映射机制[J]. 清华大学学报(自然科学版), 2014, 54(4):437-442. LIU Z J, LI Y, SU L, et al. TCAM-efficient flow table mapping scheme for OpenFlow multiple-table pipelines[J]. Journal of Tsinghua University (Science and Technology), 2014, 54(4):437-442. (in Chinese)
[14] 史少平, 庄雷, 马丁, 等. 平衡时空的自适应多级流表构建方法[J]. 计算机工程与设计, 2017, 38(3):830-836. SHI S P, ZHUANG L, MA D, et al. Adaptive method balancing time and space for multiple-table construction[J]. Computer Engineering and Design, 2017, 38(3):830-836. (in Chinese)
[15] 郑凌, 邱智亮, 孙士勇, 等. 软件定义网络中一种两步式多级流表构建算法[J]. 西安电子科技大学学报(自然科学版), 2018, 45(5):25-31. ZHENG L, QIU Z L, SUN S Y, et al. Two-step multiple flow table construction algorithm in the software-defined network[J]. Journal of Xidian University (Natural Science), 2018, 45(5):25-31. (in Chinese)
[16] BOSSHART P, GIBB G, KIM H S, et al. Forwarding metamorphosis:Fast programmable match-action processing in hardware for SDN[C]//Proceedings of the ACM SIGCOMM 2013 Conference on SIGCOMM. Hong Kong, China, 2013:99-110.
[17] 晏坚, 王帅, 靳瑾, 等. 软件定义网络多协议区分流表构建方法和系统:CN202010270401.4[P]. 2020-11-13. YAN J, WANG S, JIN J, et al. Method and system for constructing software-defined network multi-protocol division table:CN202010270401.4[P]. 2020-11-13. (in Chinese)
[18] SRINIVASAN V, VARGHESE G, SURI S, et al. Fast and scalable layer four switching[C]//Proceedings of the ACM SIGCOMM'98 Conference on Applications, Technologies, Architectures, and Protocols for Computer Communication. Vancouver, Canada, 1998:191-202.
[19] LI J, LIU H Y, SOLLINS K. AFBV:A scalable packet classification algorithm[J]. ACM SIGCOMM Computer Communication Review, 2002, 32(3):24.
[20] MATOUŠEK J, ANTICHI G, LU AČG ANSKÝ A, et al. ClassBench-ng:Recasting ClassBench after a decade of network evolution[C]//2017 ACM/IEEE Symposium on Architectures for Networking and Communications Systems (ANCS). Beijing, China, 2017:204-216.
[21] JIANG W R. Scalable ternary content addressable memory implementation using FPGAs[C]//Architectures for Networking and Communications Systems. San Jose, USA, 2013:71-82.