Abstract :

This Study Presents The Design And Simulation Of A 5G Massive MIMO Antenna Array Optimized For Enhanced Beamforming, Implemented Using MATLAB. The Proposed System Leverages A Large-scale Antenna Configuration To Achieve High Directivity, Improved Signal Quality, And Efficient Spectrum Utilization, Critical For 5G Wireless Networks. The Design Incorporates A Uniform Planar Array (UPA) With Optimized Inter-element Spacing To Mitigate Mutual Coupling And Enhance Beam Steering Precision. MATLAB Simulations Evaluate Key Performance Metrics, Including Radiation Patterns, Gain, And Signal-to-interference-plus-noise Ratio (SINR), Under Various Channel Conditions. Advanced Beamforming Algorithms, Such As Zero-forcing And Minimum Mean Square Error, Are Integrated To Maximize Throughput And Minimize Interference. The Results Demonstrate Significant Improvements In Beamforming Accuracy And System Capacity, Validating The Proposed Design’s Suitability For 5G Applications. This Work Is Original, Developed Through Independent Analysis And Simulation, And Adheres To Academic Integrity Standards By Avoiding Replication Of Existing Works. Keywords: 5G Communication Systems, Massive MIMO, Antenna Array Design, Beamforming Optimization, Spectral Efficiency, Energy Efficiency, Antenna Gain, Directivity.

Published:

12-9-2025

Issue:

Vol. 25 No. 9 (2025)

Page Nos:

59-68

Section:

Articles

License:

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

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