Research Article

Block Diagonalization in the 5G SA Network

Authors

  • Mohamed Mokrani Phd Student, Electronics Department, University of Blida 1, Blida, Algeria
  • Messaoud Bensabti Professor, Electronics Department, University of Blida 1, Blida, Algeria

Abstract

In this paper, we did programming regarding the Block diagonalization technology in the 5G standalone SA network, in this program, we have created a 5G site with 16 antennas(minimum of Massive MIMO) and 4 active users equipped of 4 antennas, this system is called Multi Users Massive MIMO system, the link that was chosen is the downlink,we have calculated the maximum throughput in the 5G downlink where we have obained a value of 1673864 b/ms, this value is divided by the number of Massive MIMO layers which worth 16 to get a transport block size of 104616 b/ms (no Cyclic redundancy check CRC). The Block Error rate BLER is null (no detection of errors in reception) because we are in the case of no crc and no channel coding (uncoded transmission), the signal of each user among 4 to be transmitted consists of 4 vectors, each vector has a length of 52308 that corresponds to the number of symbols which are the outputs of Quadrature Phase Shift Keying QPSK Mapping Operation. The received signal at each user equipment UE has a form which can be represented by the multiplication of preconding matrix of this UE with the channel matrix between this UE and the 5G site plus the noise received at the antennas of this UE. the results show that the product of channel gain between UE and the 5G site(known in emission) with the precoding matrix of the other UE gives a matrix which composes of imaginary elements each of which has a real part and imaginary part which both tend to zero(the inter users interferences IUI is canceled). The results show also that when the Signal to Noise Ratio SNR increases(several transmissions) the Bit Error Rate decreases.

Article information

Journal

Journal of Computer Science and Technology Studies

Volume (Issue)

5 (4)

Pages

107-121

Published

2023-11-18

How to Cite

Mokrani, M., & Bensabti, M. (2023). Block Diagonalization in the 5G SA Network. Journal of Computer Science and Technology Studies, 5(4), 107-121. https://doi.org/10.32996/jcsts.2023.5.4.11

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