[1] |
Chuanbing GONG, Mingshuai YANG, Song WU, Haiping GE, Shouguo ZHANG, Lei LIU, Yunshan QI, Hui XU.
Research on the application of site value evaluation model
[J]. Telecommunications Science, 2023, 39(1): 100-107.
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[2] |
Yahui XUE, Zecai SHAO, Chunfeng CUI, Jing JIN, Hanning WANG.
Optimal strategy for maximizing energy efficiency of 4G and 5G coexistence network
[J]. Telecommunications Science, 2022, 38(9): 187-192.
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[3] |
Dan YANG, Jing ZHANG, Peijin LV, Yun LU, Zhanchun YANG.
4G/5G low-cost wireless coverage scheme based on tapping the potential of existing networks
[J]. Telecommunications Science, 2021, 37(9): 168-174.
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[4] |
Yongchang YU, Dian ZHANG, Mingling DING.
Solution of common antenna of 4G/5G in 5G Era
[J]. Telecommunications Science, 2021, 37(4): 140-150.
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[5] |
Zheng DONG,Ying ZHU,Chunze YANG.
Research and application of real time video monitoring system based on IoT and 4G wireless VPDN technology
[J]. Telecommunications Science, 2018, 34(7): 195-200.
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[6] |
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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[7] |
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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[8] |
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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[9] |
Xiaoguang HUANG,Junhua DONG,Feng WANG,Wei WANG.
4G network perception planning method based on Monte-Carlo simulation
[J]. Telecommunications Science, 2017, 33(7): 144-150.
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[10] |
Tao DU,Xiaohui DENG,Gang LI.
Analysis of operation environment influence of 1.8 GHz TDD-LTE industry private network
[J]. Telecommunications Science, 2017, 33(10): 148-154.
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[11] |
Xiaoxia QIN,Chen WANG,Di QIAO.
Backhaul carrying scheme of TD-LTE microcell base station
[J]. Telecommunications Science, 2016, 32(4): 133-140.
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[12] |
UANGYunfei H,Jianxian LU,Xu ZHAO,Qingyang WANG.
Solution of CSFB UE accessing no-CSFB 4G network
[J]. Telecommunications Science, 2016, 32(2): 153-157.
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[13] |
Lunsuo WANG.
TD-LTE and LTE FDD fusion networking strategy
[J]. Telecommunications Science, 2016, 32(1): 188-192.
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[14] |
Anda DEN,Deping XU,Linjie SUN,GLujing GEN,Xinning SHI,Xiang WAVG.
Research and suggestion on the choice of the acceptance indexes of the TD-LTE VoLTE wireless network engineering
[J]. Telecommunications Science, 2015, 31(Z1): 27-32.
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[15] |
DePing XU,XiangChen MA,RiTao CHENG,LuJing GENG.
Research and deployment on the innovation solution for 4G voice of high-speed railway scenario
[J]. Telecommunications Science, 2015, 31(Z1): 48-52.
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