This work is based on the creation of a virtual environment where the received signal strength (RSRP using the Network Cell Info Lite application) can be visualized in band 4, which belongs to Claro LTE’s 2140 MHz frequency in a specific area of ESPOCH, with a received power range of −60 dBm to −100 dBm, to which a color scale with a variation of 5 dBm was assigned. The aim was to observe the behavior of the received signal from the average measurements of the three RSRP campaigns using different colors in a virtual environment developed in the Blender, SetchUp, and Unity programs. In addition, Oculus Quest 2 glasses (ESPOCH) were used to explore the virtual environment of the area to be analyzed in the Unity program.

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Design of a Virtual Environment with RSRP Measurements Obtained in an Open Area at More Than 2800 m.a.s.l. in Riobamba-Ecuador

  • Anthony Gualli,
  • Alexis Leon

摘要

This work is based on the creation of a virtual environment where the received signal strength (RSRP using the Network Cell Info Lite application) can be visualized in band 4, which belongs to Claro LTE’s 2140 MHz frequency in a specific area of ESPOCH, with a received power range of −60 dBm to −100 dBm, to which a color scale with a variation of 5 dBm was assigned. The aim was to observe the behavior of the received signal from the average measurements of the three RSRP campaigns using different colors in a virtual environment developed in the Blender, SetchUp, and Unity programs. In addition, Oculus Quest 2 glasses (ESPOCH) were used to explore the virtual environment of the area to be analyzed in the Unity program.