| [1] |
Ming AI, Yunjing HOU, Runze ZHOU, Mao CAI.
Location services and technologies of 5G-Advanced network
[J]. Telecommunications Science, 2022, 38(6): 120-130.
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| [2] |
Congshan FAN, Xu ZHOU, Yifang QIN, Taixin LI.
Full-dimensional definable network capabilities
[J]. Telecommunications Science, 2021, 37(10): 31-38.
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| [3] |
Lin LIN,Lu LI,Yuming GE.
Analysis of the communication standardization and industry development of internet of vehicles
[J]. Telecommunications Science, 2020, 36(4): 15-26.
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| [4] |
Kejun WEI,Po HU.
6G vision requirements and technology trend prospect
[J]. Telecommunications Science, 2020, 36(2): 126-129.
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| [5] |
Yuan ZHANG,Huifen WANG,Hanming WANG.
Machine vision technology,standardization,and application in safety industry
[J]. Telecommunications Science, 2020, 36(11): 104-112.
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| [6] |
Shuai WANG,Yi LI,Maolin CHEN,Guifang XU.
LTE network expansion under unlimited traffic packages in colleges and universities
[J]. Telecommunications Science, 2020, 36(1): 101-108.
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| [7] |
Bin DAI,Yuanyuan CAO,Yijun MO.
A survey on future networks:application scenarios and requirements analysis
[J]. Telecommunications Science, 2019, 35(8): 39-48.
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| [8] |
Hui TONG.
5G new radio design:why/how to extend/innovate from LTE
[J]. Telecommunications Science, 2019, 35(7): 17-26.
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| [9] |
Rui TANG, Geng ZHANG, Bingbing WU, Wenyu ZHAO, Haiyi ZHANG.
Analysis on the progress of all-optical network standardization and technology development
[J]. Telecommunications Science, 2019, 35(4): 1-9.
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| [10] |
Linghao WANG, Miao WANG, Yawen ZHANG, Yujun ZHANG.
Future network application scenarios and network capability requirements
[J]. Telecommunications Science, 2019, 35(10): 1-12.
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| [11] |
Junsen LAI,Bingbing WU,Rui TANG,Mengyu Ding,Wenyu ZHAO,Haiyi ZHANG.
Analysis on the progress of quantum secure communication test evaluation and standardization
[J]. Telecommunications Science, 2018, 34(9): 2-9.
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| [12] |
Bin ZHUGE,Yihang QI,Hanwen FU,Weiming WANG.
Network resource pricing strategy based on SDN framework
[J]. Telecommunications Science, 2018, 34(7): 49-61.
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| [13] |
Junfeng LAN,Chongli NIU,Guohui YU.
Offshore coverage optimization and application of TD-LTE networks
[J]. Telecommunications Science, 2018, 34(6): 36-42.
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| [14] |
Bao FENG,Tao MA,Shilong CAI,Yang LI.
Power allocation of MIMO system with RF mismatch in TD-LTE power wireless private network
[J]. Telecommunications Science, 2018, 34(3): 177-182.
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| [15] |
Pengfei WANG,Jian ZHENG.
Interference analysis of TD-LTE downlink signal on S-band pulse radar fuse Abstract:Concerning that the TD-LTE downlink signal and pulse radar fuze signal may be interfered within 2 300 to 2 400 MHz band of S-band,the method of calculating the signal-to-interference ratio at the pulse radar fuse receiver was used.And the isolation distance that the TD-LTE downlink signal did not interfere the pulse radar fuze signal under the condition of other factors determined was obtained.The validity of the conclusion through the link level simulation was verified.At the same time,it was also obtained when the horizontal distance between the two was isolated distance,the transmission power of the base station was increased (or the fuze transmission power was reduced),the ground effective reflection area was reduced,the fuse will also be interfered by TD-LTE downlink signal.
[J]. Telecommunications Science, 2018, 34(2): 23-31.
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