手机直连低轨卫星:关键技术、发展现状与未来展望
孙耀华, 彭木根. 面向手机直连的低轨卫星通信:关键技术、发展现状与未来展望. 电信科学[J], 2023, 39(2): 25-36 doi:10.11959/j.issn.1000-0801.2023031
孙耀华,彭木根:北京邮电大学网络与交换技术国家重点实验室
参考文献:[1] 孙智立, 李天儒. 大规模低轨星座卫星通信网发展展望[J].中兴通讯技术, 2021, 27(5): 48-51.[2] SUN Y H, PENG M G, ZHANG S J, et al. Integrated satellite-terrestrial networks: architectures, key techniques, and experimental progress[J]. IEEE Network, 2022, 36(6): 191-198.[3] 王艳峰, 谷林海, 刘鸿鹏. 低轨卫星移动通信现状与未来发展[J]. 通信技术, 2020, 53(10): 2447-2453.[4] 吴晓文, 焦侦丰, 凌翔, 等. 面向6G 的卫星通信网络架构展望[J]. 电信科学, 2021, 37(7): 1-14.[5] 缪德山, 柴丽, 孙建成, 等. 5G NTN 关键技术研究与演进展望[J]. 电信科学, 2022, 38(3): 10-21.[6] WANG D, MEI Z Q, ZHANG H Q, et al. A novel PSS timing synchronization algorithm for cell search in 5G NR system[J]. IEEE Access, 2021, 9: 5870-5880.[7] 孙倩楠, 张治中. 5G 系统小区搜索PSS 定时同步方法[J]. 电讯技术, 2020, 60(6): 678-683.[8] 朱剑锋, 孙耀华, 彭木根. 低轨卫星通信系统的前导序列设计[J]. 北京邮电大学学报, 2022, 45(6): 75-81.[9] SUN Y H, PENG M G. Edge intelligence assisted resource management for satellite communication[J]. China Communications, 2022, 19(8): 31-40.[10] LIN Z Y, NI Z Y, KUANG L L, et al. NGSO satellites beam hopping strategy based on load balancing and interference avoidance for coexistence with GSO systems[J]. IEEE Communications Letters, 2023, 27(1): 278-282.[11] YAO H W, AVELLAN A, JAYASIMHA S, et al. Satellite MIMO system: US11515935[P]. 2022-11-29.[12] TOMASSO K C. Wide area network access management computer: US8832425[P]. 2014-09-09.[13] SPEIDEL T R, BUVARP A, LIU J. Receiver-based computation of transmitter parameters and state for communications beyond design ranges of a cellular network protocol: US11546726[P]. 2023-01-03.[14] SPEIDEL T R, GERBER A J. Method and apparatus for handling communications between spacecraft operating in an orbital environment and terrestrial telecommunications devices that use terrestrial base station communications: US10985834[P].2021-04-20.[15] SPEIDEL T R, MILLER C E. Method for interference minimization and optimization of orbital mobile cellular services: US20220368411[P]. 2022-11-17.[16] 环球星链公司. 对来自地面-地面通信的干扰的轨道基站滤波: CN112236953A[P]. 2021-01-15.[17] 环球星链公司. 蜂窝核心网络和无线电接入网基础设施以及空间管理: CN113056877A[P]. 2021-06-29.[18] 王则予, 张梦菲, 孙耀华, 等. 星上透明转发非地面网络中的切换机制[J]. 北京邮电大学学报, 2022, 45(6): 101-108.[19] OKATI N, RIIHONEN T, KORPI D, et al. Downlink coverage and rate analysis of low earth orbit satellite constellations using stochastic geometry[J]. IEEE Transactions on Communications, 2020, 68(8): 5120-5134.[20] WANG R B, KISHK M A, ALOUINI M S. Evaluating the accuracy of stochastic geometry based models for LEO satellite networks analysis[J]. IEEE Communications Letters, 2022, 26(10): 2440-2444.
B5G与6G通信
本站是提供个人知识管理的网络存储空间,所有内容均由用户发布,不代表本站观点。请注意甄别内容中的联系方式、诱导购买等信息,谨防诈骗。如发现有害或侵权内容,请点击一键举报。
孙耀华,彭木根:北京邮电大学网络与交换技术国家重点实验室
参考文献:[1] 孙智立, 李天儒. 大规模低轨星座卫星通信网发展展望[J].中兴通讯技术, 2021, 27(5): 48-51.[2] SUN Y H, PENG M G, ZHANG S J, et al. Integrated satellite-terrestrial networks: architectures, key techniques, and experimental progress[J]. IEEE Network, 2022, 36(6): 191-198.[3] 王艳峰, 谷林海, 刘鸿鹏. 低轨卫星移动通信现状与未来发展[J]. 通信技术, 2020, 53(10): 2447-2453.[4] 吴晓文, 焦侦丰, 凌翔, 等. 面向6G 的卫星通信网络架构展望[J]. 电信科学, 2021, 37(7): 1-14.[5] 缪德山, 柴丽, 孙建成, 等. 5G NTN 关键技术研究与演进展望[J]. 电信科学, 2022, 38(3): 10-21.[6] WANG D, MEI Z Q, ZHANG H Q, et al. A novel PSS timing synchronization algorithm for cell search in 5G NR system[J]. IEEE Access, 2021, 9: 5870-5880.[7] 孙倩楠, 张治中. 5G 系统小区搜索PSS 定时同步方法[J]. 电讯技术, 2020, 60(6): 678-683.[8] 朱剑锋, 孙耀华, 彭木根. 低轨卫星通信系统的前导序列设计[J]. 北京邮电大学学报, 2022, 45(6): 75-81.[9] SUN Y H, PENG M G. Edge intelligence assisted resource management for satellite communication[J]. China Communications, 2022, 19(8): 31-40.[10] LIN Z Y, NI Z Y, KUANG L L, et al. NGSO satellites beam hopping strategy based on load balancing and interference avoidance for coexistence with GSO systems[J]. IEEE Communications Letters, 2023, 27(1): 278-282.[11] YAO H W, AVELLAN A, JAYASIMHA S, et al. Satellite MIMO system: US11515935[P]. 2022-11-29.[12] TOMASSO K C. Wide area network access management computer: US8832425[P]. 2014-09-09.[13] SPEIDEL T R, BUVARP A, LIU J. Receiver-based computation of transmitter parameters and state for communications beyond design ranges of a cellular network protocol: US11546726[P]. 2023-01-03.[14] SPEIDEL T R, GERBER A J. Method and apparatus for handling communications between spacecraft operating in an orbital environment and terrestrial telecommunications devices that use terrestrial base station communications: US10985834[P].2021-04-20.[15] SPEIDEL T R, MILLER C E. Method for interference minimization and optimization of orbital mobile cellular services: US20220368411[P]. 2022-11-17.[16] 环球星链公司. 对来自地面-地面通信的干扰的轨道基站滤波: CN112236953A[P]. 2021-01-15.[17] 环球星链公司. 蜂窝核心网络和无线电接入网基础设施以及空间管理: CN113056877A[P]. 2021-06-29.[18] 王则予, 张梦菲, 孙耀华, 等. 星上透明转发非地面网络中的切换机制[J]. 北京邮电大学学报, 2022, 45(6): 101-108.[19] OKATI N, RIIHONEN T, KORPI D, et al. Downlink coverage and rate analysis of low earth orbit satellite constellations using stochastic geometry[J]. IEEE Transactions on Communications, 2020, 68(8): 5120-5134.[20] WANG R B, KISHK M A, ALOUINI M S. Evaluating the accuracy of stochastic geometry based models for LEO satellite networks analysis[J]. IEEE Communications Letters, 2022, 26(10): 2440-2444.
B5G与6G通信
微信号|sixgmobile
关键技术、标准化、产业发展……
本站是提供个人知识管理的网络存储空间,所有内容均由用户发布,不代表本站观点。请注意甄别内容中的联系方式、诱导购买等信息,谨防诈骗。如发现有害或侵权内容,请点击一键举报。
0条评论