Resumen

SANIPATIN, Bryan  y  RIBADENEIRA, Jefferson. Development of a Parameterizable Simulator of 5G-New Radio based on Ray Tracing for Planning Urban cells. Novasinergia [online]. 2023, vol.6, n.1, pp.65-94.  Epub 16-Ene-2023. ISSN 2631-2654.  https://doi.org/10.37135/ns.01.11.05.

: Nowadays, the 5G New Radio broadband technology has begun to be deployed. Therefore, new tools focused on studying the standard and propagation conditions are needed. In this context, the development of a 5G New Radio simulator that allows experimentation with the different signal parameters, as well as to identify the main characteristics at the link level and wave propagation, is presented. The essential parts of the standard were analyzed and introduced into the software, from which the Physical Downlink Shared Channel and the Physical Uplink Shared Channel could be parametrized. Regarding urban cell planning, two calculations are included: i) SINR maps that allow the visualization of Signal to Noise and Interference Ratio (SINR) for parametrizable numbers of gNodeB, transmission power, downtilt, and so on; ii) Coverage simulation based on ray-tracing in 3D maps that also consider the permittivity and conductivity of buildings and terrain materials. Additionally, for channel characterization, the simulator presents the Power Delay Profile (PDP), and if there is movement, the Doppler shift is represented in the Scattering function. The result is a parameterizable simulator that integrates 5G-NR signal generation and coverage calculations for the deployment of 5G urban cells, with an average difference in the ray-tracing case of 7.11 dB between the measured and calculated values.

Palabras clave : 5G New Radio; Electromagnetic propagation; Electromagnetic reflection; Ray Tracing; Simulation.

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