Building a 6G urban macro-cell test environment and displaying the signal-to-interference-plus-noise ratio (SINR) on a map are the main objectives of this research study. The study is carried out at Fiji National University's College of Engineering and TVET, which is located at latitude −18.12 and longitude 178.44. The test environment is modelled after a densely populated urban area, which is distinguished by a high user density and heavy traffic volumes. It is designed to target scenarios that involve both automotive and pedestrian users and complies with 5G networks’ Dense Urban enhanced Mobile Broadband (eMBB) standards. Using Phased Array Systems, the research creates a hexagonal macro-cell network with a unique antenna array to mimic real-world communication settings. By focusing signal beams and reducing interference in intricate urban settings, phased array technology enhances SINR performance. To create a realistic urban macro-cell model, several variables are taken into account, including building heights, road configurations, and user movement patterns. The present study offers valuable insights into the impact of noise and interference on signal quality in densely populated urban contexts by examining the SINR throughout the network coverage region. The study also provides a way to visualize SINR data on a map, which can help network engineers optimize frequency reuse patterns, antenna placement, and beamforming techniques for improved 5G and 6G performance. The findings support further attempts to create high-capacity, effective 6G networks that are specifically suited to the needs of densely populated areas.

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Simulation and Analysis of 6G Urban Macrocell Test Environment for Antenna Array Design

  • Jiuliasi Veiwili Uluiburotu,
  • Luke Koroi,
  • Autiko D. Loulou,
  • Babita Tiwari,
  • Satyanand Singh,
  • Mansour Assaf

摘要

Building a 6G urban macro-cell test environment and displaying the signal-to-interference-plus-noise ratio (SINR) on a map are the main objectives of this research study. The study is carried out at Fiji National University's College of Engineering and TVET, which is located at latitude −18.12 and longitude 178.44. The test environment is modelled after a densely populated urban area, which is distinguished by a high user density and heavy traffic volumes. It is designed to target scenarios that involve both automotive and pedestrian users and complies with 5G networks’ Dense Urban enhanced Mobile Broadband (eMBB) standards. Using Phased Array Systems, the research creates a hexagonal macro-cell network with a unique antenna array to mimic real-world communication settings. By focusing signal beams and reducing interference in intricate urban settings, phased array technology enhances SINR performance. To create a realistic urban macro-cell model, several variables are taken into account, including building heights, road configurations, and user movement patterns. The present study offers valuable insights into the impact of noise and interference on signal quality in densely populated urban contexts by examining the SINR throughout the network coverage region. The study also provides a way to visualize SINR data on a map, which can help network engineers optimize frequency reuse patterns, antenna placement, and beamforming techniques for improved 5G and 6G performance. The findings support further attempts to create high-capacity, effective 6G networks that are specifically suited to the needs of densely populated areas.