Abstract
The 5G communication system comprises various ingredients essential for the recent radio access network. The 5G wireless technology can open a greater scope for device manufactures and application developers. In this paper a communication link model has been designed and implemented for 5G communication for the tropical regions. Spatial Diversity Technique has been used to design the communication link model. This model has also been designed using Xilinx system generator and implemented utilizing FPGA kit. As a result, the bit error rate (BER) of the signal gets attenuated from the transmitter as well as from the receiver portion of the aforesaid model. This model relies on the samples per frame, M-Aray number and number of transmitting antennas for rate 3/4 at the transmitter section. It also depends on the computation delay; receive delay, number of receiving antennas for rate 3/4 at the receiver portion. The channel frequency is based on the 5G communication frequency ranging from 600MHz to 100 GHz.
Highlights
5G communications has been announced by researchers in a strict tone that it is part and parcel of modern technology as well as a major challenge to incorporate modern civilization into wireless communication. 5G communication in modern technology demands much higher data rates, higher network capacity, wider spectral efficiency and higher mobility. 5G communications use millimeter wavelengths and these wavelengths are shorter than 3G and 4G
It has been observed from previous research work that no work has been done for bit error rate minimization technique in tropical regions and no hardware model has been designed for Bit Error Rate (BER) minimization for 5G communication
The model shown in fig.6 relates to the diversity technique which is to be utilized for Bit Error Rate Minimization in the tropical regions in respect of 5G communications
Summary
The attenuation on a particular path depends on the utility of frequency, polarization, temperature, path length and latitude [13]. The need for high carrier frequencies of 28 GHz and above in particular includes strong diffusion destruction due to rain, the effects of which are harmful in areas with heavy rainfall [3] In this regard, when radio waves pass over. In previous research work [36] [37] hardware models of transmitters and receivers have been used for channel characterization and channel characterization of mm-wave bands during rainfall in tropical regions. It has been observed from previous research work that no work has been done for bit error rate minimization technique in tropical regions and no hardware model has been designed for BER minimization for 5G communication. The main techniques adopted in the work flow for the proposed model are briefly described below:-
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Published Version
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