Common Interference Factors and Control Measures for 5G Terminals

Linling Lai

Abstract


In recent years, the development trend of communication industry in intelligent, broadband and mobile is obvious, the use of wireless traffic is rising rapidly, and information consumption has become a new symbol of accelerated economic growth. The continuous development of mobile communications has become an important guarantee of how to improve the level of social informatization and promote the development of the national economy. Nowadays, not only tends to the network update rate, but also tends to the emerging development of 5G network, in order to improve the level of informatization. Communication system has been updated from one generation to five generations, even though four generations of communication systems have been widely put into use, but not up to the needs of certain senior staff and the construction of various aspects of the country. In order to make the 5G system and the satellite system and the transmitter system merge and share, to avoid the interference to the satellite system in orbit and the plan to use the satellite system, the in-depth understanding and practice, go to solve the problem of self-interference, mutual interference, in order to ensure the efficiency of receiving information.


Keywords


5G; Interference; Factors; Measures

Full Text:

PDF

Included Database


References


Luo YB, Zhang L, Ding Y, et al. 5G cellular internet of things communication module technology and application[J]. Changjiang Information and Communication, 2022, 35(11):214-217.

Duan Y, Cao LH, Zhang ZZ, et al. Research and implementation of signaling analysis technology in 5G terminal simulator[J]. Computer Engineering and Application, 2020, 56(15): 106-112.

Zhang ZH. Intermodulation interference suppression in mobile communications[J]. Sichuan Communication Technology,1994(02): 22-25.

Xu JW, Liu JH, Zhang RY, et al. Key technologies for energy saving in 5G wireless networks[J]. Mobile Communication, 2021, 45(2):2-7.

Zhang KB, Zou JB, Zhang HJ. Analysis of the impact of interference of different modulation methods on the performance of LTE-M[J]. Urban Rail Transportation Research, 2020, 23(8):143~147.

Dong DL. Research and application of dynamic spectrum in LTE and GSM networks[J]. Mobile Communication, 2017,41(21): 70-75.

Yan D, Guo QF, Cheng W, et al. A high isolation dual-band MIMO antenna design that can be applied to WLAN [J]. Electronic Components and Materials, 2020, 39(6): 91-96.

Li ZY, Han GR, Chen XW. High isolation MIMO antenna design for LTE applications[J]. Journal of Testing Technology, 2020,34(6):533-537(006):034.

Luo Z, Ma C, Tan LJ. Discussion on LTE 2T4R application[J]. Post and Telecommunication Design Technology, 2015(5): 48-51.




DOI: https://doi.org/10.18686/esta.v10i5.532

Refbacks

  • There are currently no refbacks.


Copyright (c) 2023 Linling Lai

Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.