基于自适应突变遗传算法的 5G 基站覆盖优化

IF 4.5 3区计算机科学 Q1 COMPUTER SCIENCE, INFORMATION SYSTEMS

Computer Communications Pub Date : 2024-07-14 DOI:10.1016/j.comcom.2024.07.002

Jianpo Li, Jinjian Pang, Xiaojuan Fan

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引用次数: 0

摘要

在通信网络规划中，合理的基站布局对提高通信速度、保证服务质量和降低投资成本起着至关重要的作用。为此，文章根据从密集城区、一般城区和郊区这三种不同环境收集到的路测数据，采用最小二乘法校准了城市微蜂窝（UMa）信号传播模型。利用校准后的模型，对规划区域进行了详细的链路预算分析，计算出单个基站满足通信需求所需的最大覆盖半径，并据此确定所需的基站数量。随后，本文提出了自适应突变遗传算法（AMGA），并建立了优化 5G 基站覆盖的数学模型，以改进基站布局。在三种不同的场景下进行了仿真实验，结果表明所提出的 AMGA 算法在降低建设成本的同时有效提高了基站覆盖率，充分体现了基站布局优化在实际应用中的价值。

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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Optimization of 5G base station coverage based on self-adaptive mutation genetic algorithm

In communication network planning, a rational base station layout plays a crucial role in improving communication speed, ensuring service quality, and reducing investment costs. To address this, the article calibrated the urban microcell (UMa) signal propagation model using the least squares method, based on road test data collected from three distinct environments: dense urban areas, general urban areas, and suburbs. 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 meet communication demands, and accordingly determining the number of base stations needed. Subsequently, this article proposed the Adaptive Mutation Genetic Algorithm (AMGA) and formulated a mathematical model for optimizing 5G base station coverage to improve the base station layout. Simulation experiments were conducted in three different scenarios, and the results indicate that the proposed AMGA algorithm effectively enhances base station coverage while reducing construction costs, thoroughly demonstrating the value of base station layout optimization in practical applications.

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来源期刊

Computer Communications 工程技术-电信学

CiteScore

14.10

自引率

5.00%

发文量

397

审稿时长

66 days

期刊介绍： Computer and Communications networks are key infrastructures of the information society with high socio-economic value as they contribute to the correct operations of many critical services (from healthcare to finance and transportation). Internet is the core of today''s computer-communication infrastructures. This has transformed the Internet, from a robust network for data transfer between computers, to a global, content-rich, communication and information system where contents are increasingly generated by the users, and distributed according to human social relations. Next-generation network technologies, architectures and protocols are therefore required to overcome the limitations of the legacy Internet and add new capabilities and services. The future Internet should be ubiquitous, secure, resilient, and closer to human communication paradigms. Computer Communications is a peer-reviewed international journal that publishes high-quality scientific articles (both theory and practice) and survey papers covering all aspects of future computer communication networks (on all layers, except the physical layer), with a special attention to the evolution of the Internet architecture, protocols, services, and applications.