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Published Online:2020-08,
Published:20 August 2020
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Fangmin XU, Lijiao WU, Fan YANG, et al. Time-sensitive networking (TSN) and wireless TSN technology[J]. Telecommunications science, 2020, 36(8): 81-91.
Fangmin XU, Lijiao WU, Fan YANG, et al. Time-sensitive networking (TSN) and wireless TSN technology[J]. Telecommunications science, 2020, 36(8): 81-91. DOI: 10.11959/j.issn.1000-0801.2020178.
时间敏感网络(TSN)在以太网的基础上提供端到端极低时延和高可靠性的数据传输,适用于时延敏感型应用,广泛应用于自动驾驶、工业互联网等场景。首先总结了TSN的特点,并详细阐述了TSN标准的工作原理和特性,重点介绍了在无线网络中提供确定性时延和可靠数据传输的网络技术,即无线TSN技术。此外,通过TSN的应用场景简要分析了TSN的应用案例。最后探讨了TSN和无线TSN技术及其在工业场景中应用存在的挑战和问题,并展望了未来的研究方向。
Time-sensitive networking (TSN) provides end-to-end data transmission with extremely low-latency and high-reliability over ethernet
which is suitable for time-sensitive applications
widely used in automatic driving
industry of internet and other scenarios.Firstly
the characteristics of TSN were summarized
the working principles and features of TSN standards were elaborated in detail
the network technology that provided deterministic and reliable data transmission in wireless network was especially introduced
as wireless TSN technology.In addition
the application cases of TSN were briefly analyzed.The challenges and problems of TSN and wireless TSN technology and their application in industrial scenarios were discussed
and the future research directions were prospected.
丛培壮 , 田野 , 龚向阳 , 等 . 时间敏感网络的关键协议及应用场景综述 [J ] . 电信科学 , 2019 , 35 ( 10 ): 31 - 42 .
CONG P Z , TIAN Y , GONG X Y , et al . A survey of key protocol and application scenario of time-sensitive network [J ] . Telecommunications Science , 2019 , 35 ( 10 ): 31 - 42 .
FINN N . Introduction to time-sensitive networking [J ] . IEEE Communications Standards Magazine , 2018 , 2 ( 2 ): 22 - 88 .
SAMII S , ZINNER H . Level 5 by layer 2:time-sensitive networking for autonomous vehicles [J ] . IEEE Communications Standards Magazine , 2018 , 2 ( 2 ): 62 - 68 .
IEEE . IEEE standard for local and metropolitan area networks-bridges and bridged networks:802.1Q [S ] . 2014 .
IEEE . IEEE standard for local and metropolitan area networks-timing and synchronization for time-sensitive applications in bridged local area networks-corrigendum 2:technical and editorial corrections:802.1AS-2011/Cor 2-2015 [S ] . 2016 .
IEEE . IEEE standard for local and metropolitan area networks-bridges and bridged networks-amendment 31:stream reservation protocol (SRP) enhancements and performance improvements:802.1Qcc-2018 [S ] . 2018 .
IEEE . IEEE standard for local and metropolitan area networksbridges and bridged networks-amendment 25:enhancements for scheduled traffic:802.1Qbv-2015 [S ] . 2016 .
IEEE . IEEE standard for local and metropolitan area networksbridges and bridged networks-amendment 26:frame preemption:802.1Qbu-2016 [S ] . 2016 .
IEEE . IEEE standard for Local and metropolitan area networks-bridges and bridged networks-amendment 29:cyclic queuing and forwarding:802.1Qch-2017 [S ] . 2017 .
IEEE . IEEE standard for local and metropolitan area networks-frame replication and elimination for reliability:802.1CB-2017 [S ] . 2017 .
IEEE . IEEE standard for local and metropolitan area networksbridges and bridged networks-amendment 24:path control and reservation:802.1Qca-2015 [S ] . 2016 .
IEEE . IEEE standard for local and metropolitan area networks-bridges and bridged networks-amendment 28:perstream filtering and policing:802.1Qci-2017 [S ] . 2017 .
IEEE . IEEE standard for a precision clock synchronization protocol for networked measurement and control systems:1588-2008 [S ] . 2018 .
MODEKURTHY V P , SAIFULLAH P , MADRIA A , et al . DistributedHART:a distributed real-time scheduling system for wirelessHART networks [C ] // Proceeding of 2019 IEEE Real-Time and Embedded Technology and Applications Symposium (RTAS) . Piscataway:IEEE Press , 2019 : 216 - 227 .
WU C , GUNATILAKA D , SHA M , et al . Real-time wireless routing for industrial internet of things [C ] // Proceeding of 2018 IEEE/ACM Third International Conference on Internet-of-Things Design and Implementation (IoTDI) . Piscataway:IEEE Press , 2018 : 261 - 266 .
FARAG H , GIDLUND M , OSTERBERG P . A delay-bounded MAC protocol for mission-and time-critical applications in industrial wireless sensor networks [J ] . IEEE Sensors Journal , 2018 , 18 ( 6 ): 2607 - 2616 .
SHEN W , ZHANG T , BARAC F , et al . PriorityMAC:a priority-enhanced MAC protocol for critical traffic in industrial wireless sensor and actuator networks [J ] . IEEE Transactions on Industrial Informatics , 2014 , 10 ( 1 ): 824 - 835 .
SERROR M , VAABEN S , WEHRLE K , et al . Practical evaluation of cooperative communication for ultra-reliability and low-latency [C ] // Proceedings of 2018 IEEE 19th International Symposium on A World of Wireless,Mobile and Multimedia Networks (WoWMoM) . Piscataway:IEEE Press , 2018 : 14 - 15 .
TRAMARIN F , MOK A K , HAN S . Real-time and reliable industrial control over wireless LANs:algorithms,protocols,and future directions [J ] . Proceedings of the IEEE , 2019 , 107 ( 6 ): 1027 - 1052 .
SEIJO O , FERNANDEZ Z , VAL I , et al . SHARP:towards the integration of time-sensitive communications in legacy LAN/WLAN [C ] // Proceedings of 2018 IEEE Globecom Workshops (GC Wkshps) . Piscataway:IEEE Press , 2018 : 1 - 7 .
3GPP.Study on NR industrial internet of things (IoT)(R16) [S ] . 2019 .
3GPP.System architecture for the 5G system (R15) [S ] . 2017 .
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