With the calibrated model, a detailed link budget analysis was performed on the planning area, calculating the maximum coverage radius required for a single base station to
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This approach allows us to quickly respond to the growth of data traffic consumption and improve the quality of communication with minimal resource consumption.
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In this study, a comprehensive mathematical model of a fifth-generation (5G) mobile communication network was developed, considering the spatial distribution of base stations
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The communication base station hybrid system emerges as a game-changer, blending grid power with renewable sources and intelligent energy routing. But does this
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In order to improve the efficiency of 5G Network communication, a method of dynamic spotting setting for base station based on communication demand density is
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The developed model can facilitate the rollout of 5G technology. Due to the high propagation loss and blockage-sensitive characteristics of millimeter waves (mmWaves),
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In previous research on 5 G wireless networks, the optimization of base station deployment primarily relied on human expertise, simulation software, and algorithmic
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Since mmWave base stations (gNodeB) are typically capable of radiating up to 200-400 meters in urban locality. Therefore, high density of these stations is required for
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The beamforming technology of the new fifth generation (5G) communication technology, different from the conventional ones, is updated by millimeter-wave technology,
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The main challenge is deploying an ultra-high density of base stations (BSs) for satisfactory communication coverage. [6] focuses on implementing 5G base stations for
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