[1] |
宋光敏, 王群青, 黄占兵, ,等. 赋能5G垂直行业:基于端边协同保障时延确定性技术研究“5G行业应用”[EB]. 2022.
|
|
SONG G , WANG Q , HUANG Z ,et al. Empowering 5G vertical indus-tries:research on the edge-end collaboration framework for determi-nistic network “5G industry applications”[EB]. 2022.
|
[2] |
WANG Y M , FENG W , WANG J ,et al. Hybrid satellite-UAV-terrestrial networks for 6G ubiquitous coverage:a maritime communications perspective[J]. IEEE Journal on Selected Areas in Communications, 2021,39(11): 3475-3490.
|
[3] |
冯伟, 唐睿, 葛宁 . 星地协同智能海洋通信网络发展展望[J]. 电信科学, 2020,36(10): 1-11.
|
|
FENG W , TANG R , GE N . Perspectives on coordinated satellite-terrestrial intelligent maritime communication network[J]. Telecommunications Science, 2020,36(10): 1-11.
|
[4] |
中国移动研究院. 6G全息通信业务发展趋势白皮书[R]. 2022.
|
|
China Mobile Research Institute. White paper on development trend of 6G holographic communication service[R]. 2022.
|
[5] |
ITU FG-NET-2030. Network 2030 a blueprint of technology,applications and market drivers towards the year 2030 and beyond[R]. 2019.
|
[6] |
HUANG Y , WANG S , HUANG T ,et al. Cycle-based time-sensitive and deterministic networks:architecture,challenges,and open issues[J]. IEEE Communications Magazine, 2022,60(6): 81-87.
|
[7] |
WEI P , GUO K , LI Y ,et al. Reinforcement learning-empowered mobile edge computing for 6G edge intelligence[J]. IEEE Access, 10: 65156-65192.
|
[8] |
LIU C X , FENG W , TAO X M ,et al. MEC-empowered non-terrestrial network for 6G wide-area time-sensitive Internet of Things[J]. Engineering, 2022,8: 96-107.
|
[9] |
ZHANG X , WANG J Q , POOR H V . Statistical delay and error-rate bounded QoS provisioning over mmWave cell-free M-MIMO and FBC-HARQ-IR based 6G wireless networks[J]. IEEE Journal on Selected Areas in Communications, 2020,38(8): 1661-1677.
|
[10] |
ZHANG X , WANG J Q , POOR H V . Statistical delay and error-rate bounded QoS control for URLLC in the non-asymptotic regime[C]// Proceedings of 2022 IEEE International Symposium on Information Theory. Piscataway:IEEE Press, 2022: 2112-2117.
|
[11] |
QI T , FENG W , CHEN Y F ,et al. Double QoS guarantee for NOMA-enabled massive MTC networks[J]. IEEE Internet of Things Journal, 2022,PP(99): 1-22.
|
[12] |
5G确定性网络产业联盟. 5G确定性网络架构产业白皮书[R]. 2021.
|
|
5G Deterministic Networking Alliance. 5G deterministic networking architecture industry white paper[R]. 2021.
|
[13] |
中国通信学会. 5G专网前沿报告[R]. 2022.
|
|
China Institute of Communication. The frontier report for 5G private network[R]. 2022.
|
[14] |
徐文伟 . 后香农时代,数学决定未来发展的边界[R]. 中国工业与应用数学学会数学促进企业创新发展论, 2020.
|
|
XU W W . In the post Shannon era,mathematics determines the boun-dary of future development[R]. China Society for Industrial and Ap-plied Mathematics,Forum on Mathematics Promoting Enterprise In-novation and Development, 2020.
|
[15] |
NICHOLS K , JACOBSON V , MCGREGOR A ,et al. Controlled delay active queue management:IETF RFC 8289[S]. 2018.
|
[16] |
JUNG S , KIM J , KIM J H . Intelligent active queue management for stabilized QoS guarantees in 5G mobile networks[J]. IEEE Systems Journal, 2021,15(3): 4293-4302.
|
[17] |
HOEILAND-JOERGENSEN T , MCKENNEY P , TAHT D ,et al. The flow queue CoDel packet scheduler and active queue management algorithm:IETF RFC 8290[S]. 2018.
|
[18] |
Best routers for 2021[EB]. 2020.
|
[19] |
KUMAR R , FRANCINI A , PANWAR S ,et al. Dynamic control of RLC buffer size for latency minimization in mobile RAN[C]// Proceedings of 2018 IEEE Wireless Communications and Networking Conference. Piscataway:IEEE Press, 2018: 1-6.
|
[20] |
IMPUTATO P , PATRICIELLO N , AVALLONE S ,et al. Smart backlog management to fight buffer bloat in 3GPP protocol stacks[C]// Proceedings of 2019 16th IEEE Annual Consumer Communications & Networking Conference. Piscataway:IEEE Press, 2019: 1-6.
|
[21] |
BQL:byte queue limits[EB]. 2011.
|
[22] |
IRAZABAL M , LOPEZ-AGUILERA E , DEMIRKOL I ,et al. Dynamic buffer sizing and pacing as enablers of 5G low-latency services[J]. IEEE Transactions on Mobile Computing, 2022,21(3): 926-939.
|
[23] |
IRAZABAL M , LOPEZ-AGUILERA E , DEMIRKOL I ,et al. Preventing RLC buffer sojourn delays in 5G[J]. IEEE Access, 2021(9): 39466-39488.
|
[24] |
3GPP. Technical specification group radio access network; continuous connectivity for packet data users; 1.28 Mcps TDD:3GPP TR 25.929 V12.0.0[S]. 2014.
|
[25] |
ETSI. 5G; NR; radio resource control (RRC) protocol specification:ETSI TS 138 331 V15.5.1[S]. 2019.
|
[26] |
ETSI. 5G; study on scenarios and requirements for next generation access technologies:ETSI TR 138 913 V15.0.0[S]. 2018.
|
[27] |
GRASSMANN W K , TAKSAR M I , HEYMAN D P . Regenerative analysis and steady state distributions for Markov chains[J]. Operations Research, 1985,33(5): 1107-1116.
|
[28] |
CAO J Y , XIE W X . Optimization of a condition-based duration-varying preventive maintenance policy for the stockless production system based on queueing model[J]. Journal of Industrial &Management Optimization, 2017,13(5): 1-11.
|
[29] |
CAO J Y , FENG W , GE N ,et al. Delay characterization of mobile-edge computing for 6G time-sensitive services[J]. IEEE Internet of Things Journal, 2021,8(5): 3758-3773.
|
[30] |
ALFA A S . Applied discrete-time queues[M]. New York: Springer-Verlag, 2016.
|
[31] |
ZHANG H . Analytical solution to a discrete-time model for dynamic learning and decision making[J]. Management Science, 2022,68(8): 5924-5957.
|