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煤矿井下重点场所5G覆盖性能研究及验证

索智文王亚坤

工矿自动化2025，Vol.51Issue(2)：34-40,7.

工矿自动化2025，Vol.51Issue(2)：34-40,7.DOI:10.13272/j.issn.1671-251x.18228

煤矿井下重点场所5G覆盖性能研究及验证

Research and verification of 5G coverage performance in key areas of underground coal mines

索智文 ¹王亚坤²

作者信息

1. 国能神东煤炭集团有限责任公司智能技术中心,陕西榆林 719315
2. 煤炭科学技术研究院有限公司,北京 100013||煤炭行业煤矿应急救援及矿井通信工程研究中心,北京 100013||北京市煤矿安全工程技术研究中心,北京 100013
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摘要

Abstract

Current research on mining 5G networks mainly focuses on system architecture and upper-layer applications,while studies on the underlying technical characteristics of mining 5G in underground environments remain limited.To further advance the development of highly adaptable and reliable mining 5G technology,this study investigated three aspects:factors influencing mining 5G coverage performance,transmission performance in key coal mine areas,and field testing.Theoretical analysis was conducted to explore the relationships between mining 5G coverage performance and factors such as the 5G operating frequency band,the cross-sectional area of working faces or roadways,and the roughness of roadway walls.The results showed that lower operating frequency bands,larger cross-sectional areas of the working faces or roadways,smaller roughness of roadway walls,and fewer obstructions all contributed to improved mining 5G coverage performance.The working conditions and environmental factors of key areas in underground coal mines,including main transport roadways,auxiliary transport roadways,fully mechanized mining faces,and excavation faces,were analyzed.It was concluded that auxiliary transport roadways,with larger cross-sectional areas,lower roughness,and relatively fewer obstructions,exhibited the optimal 5G coverage performance.To improve 5G coverage performance in these areas,the use of low-frequency signals was recommended for 5G transmission and coverage.In the working areas of four coal mines,the transmission performance of mining 5G was tested at the 900 MHz frequency band.The results showed that the maximum coverage distance exceeded 700 meters in auxiliary transport roadways and reached 450 meters in main transport roadways.In the fully mechanized mining face,two base stations achieved stable coverage,and the uplink transmission rate consistently exceeded 90 Mbit/s.In the excavation working face,the uplink transmission rate reached 68.2 Mbit/s at a distance of 150 meters from the 5G base station.The test results align with the theoretical analysis,verifying that mining 5G can effectively meet the application needs of different working areas.

关键词

矿用5G/覆盖性能/主运巷道/辅运巷道/综采工作面/掘进工作面

Key words

mining 5G/coverage performance/main transport roadway/auxiliary transport roadway/fully mechanized mining face/excavation working face

分类

矿山工程

引用本文复制引用

索智文,王亚坤..煤矿井下重点场所5G覆盖性能研究及验证[J].工矿自动化,2025,51(2):34-40,7.

基金项目

天地科技股份有限公司科技创新创业资金专项重点项目(2024-TD-ZD015-03,2024-TD-ZD015-01) （2024-TD-ZD015-03,2024-TD-ZD015-01）

2024年工业互联网创新发展工程-工业5G轻量化融合终端项目(TC240AAKM). （TC240AAKM）

工矿自动化

OA北大核心

ISSN：1671-251X

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