5G Network Deployment Planning Using Metaheuristic Approaches

Telecom Pub Date : 2024-07-09 DOI:10.3390/telecom5030030

Binod Sapkota, Rijan Ghimire, Paras Pujara, Shashank Ghimire, Ujjwal Shrestha, Roshani Ghimire, Babu R. Dawadi, Shashidhar R. Joshi

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Abstract

The present research focuses on optimizing 5G base station deployment and visualization, addressing the escalating demands for high data rates and low latency. The study compares the effectiveness of Genetic Algorithm (GA), Particle Swarm Optimization (PSO), Simulated Annealing (SA), and Grey Wolf Optimizer (GWO) in both Urban Macro (UMa) and Remote Macro (RMa) deployment scenarios that overcome the limitations of the current method of 5G deployment, which involves adopting Non-Standalone (NSA) architecture. Emphasizing population density, the optimization process eliminates redundant base stations for enhanced efficiency. Results indicate that PSO and GA strike the optimal balance between coverage and capacity, offering valuable insights for efficient network planning. The study includes a comparison of 28 GHz and 3.6 GHz carrier frequencies for UMa, highlighting their respective efficiencies. Additionally, the research proposes a 2.6 GHz carrier frequency for Remote Macro Antenna (RMa) deployment, enhancing 5G Multi-Tier Radio Access Network (RAN) planning and providing practical solutions for achieving infrastructure reduction and improved network performance in a specific geographical context.

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利用元智方法进行 5G 网络部署规划

本研究的重点是优化 5G 基站部署和可视化，满足对高数据速率和低延迟不断升级的需求。研究比较了遗传算法（GA）、粒子群优化（PSO）、模拟退火（SA）和灰狼优化器（GWO）在城市宏基站（UMa）和远程宏基站（RMa）部署场景中的有效性，克服了当前 5G 部署方法的局限性，即采用非独立基站（NSA）架构。优化过程强调人口密度，消除冗余基站以提高效率。结果表明，PSO 和 GA 实现了覆盖范围和容量之间的最佳平衡，为高效网络规划提供了宝贵的见解。研究包括对用于 UMa 的 28 GHz 和 3.6 GHz 载波频率进行比较，突出强调了它们各自的效率。此外，研究还提出了用于远程宏天线（RMa）部署的 2.6 GHz 载波频率，从而加强了 5G 多层无线接入网（RAN）规划，并为在特定地理环境下减少基础设施和提高网络性能提供了实用的解决方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Telecom

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