Research on Construction Scheme for Geological Disaster Monitoring System of Railway Slopes

doi:10.3969/j.issn.1673-4440.2024.08.009

Railway Signalling & Communication Engineering ›› 2024, Vol. 21 ›› Issue (8): 52-58.DOI: 10.3969/j.issn.1673-4440.2024.08.009

Previous Articles Next Articles

Research on Construction Scheme for Geological Disaster Monitoring System of Railway Slopes

Zou Fang, Yuan Zhenjiang

Beijing Guotie Huachen Communication & Technology Co., Ltd., Beijing 100070, China

Received:2023-01-11 Revised:2024-07-02 Online:2024-08-25 Published:2024-08-25

铁路边坡地质灾害监测系统建设方案研究

邹芳，袁振江

北京国铁华晨通信科技有限公司，北京 100070

作者简介:邹芳（1975—），女，高级工程师，硕士，主要研究方向：铁路通信信息，邮箱：zoufang@crsc.com。
基金资助:
中国国家铁路集团有限公司重点课题项目（N2022B001）；通号通信信息集团有限公司课题项目（4560-K1220003）

Abstract

Abstract: Although the railway permanent way departments invest a lot of manpower and material resources to strengthen the line patrol in the areas with geological hazards every year in the flood season, there are problems such as large personnel investment, low efficiency and poor real-time performance. This paper proposes a construction scheme of railway slope geological hazard monitoring system based on multi-sensor detection technology, covering geological hazard monitoring points, the work safety command center of permanent way depot, and the permanent way dispatching center of railway bureau, to meet the requirements of automatic monitoring of geological hazards in flood season.

Key words: geological hazard monitoring, landslide monitoring, deep displacement monitoring, surface displacement monitoring, pore water pressure monitoring

摘要： 铁路工务部门每年汛期都投入大量人力物力加强地质灾害隐患区段的线路巡防，但存在人员投入大、效率低、实时性差等问题。提出一种基于多传感器探测技术，覆盖地质灾害监测点、工务段安全生产指挥中心、铁路局工务调度中心的铁路边坡地质灾害监测系统建设方案，满足汛期地质灾害自动化监测需求。

关键词: 地质灾害监测, 滑坡监测, 深部位移监测, 地表位移监测, 孔隙水压监测

CLC Number:

U285

Zou Fang, Yuan Zhenjiang. Research on Construction Scheme for Geological Disaster Monitoring System of Railway Slopes[J]. Railway Signalling & Communication Engineering, 2024, 21(8): 52-58.

邹芳, 袁振江. 铁路边坡地质灾害监测系统建设方案研究[J]. 铁路通信信号工程技术, 2024, 21(8): 52-58.

Figures/Tables 8

References

[1]孟祥连，李兴龙.铁路地质灾害勘察识别与监测预警[J].中国铁路，2024（1):21-29.
Meng Xianglian, Li Xinglong. Survey, Identification, Monitoring and Early Warning of Railway Geological Disasters[J]. China Railway, 2024(1): 21-29.
[2]宋华杰.轨道异物入侵检测的必要性及措施分析[J].科技视界，2022（5）：136-138.
Song Huajie. Necessity and Measures Analysis of Foreign Body Intrusion Detection in Track[J]. Science & Technology Vision, 2022(5): 136-138.
[3]曾宪海.铁路地质灾害防控面临的挑战与对策[J].中国铁路，2024（1）：7-14.
Zeng Xianhai. Challenges and Countermeasures for Prevention and Control of Railway Geological Disasters[J]. China Railway, 2024(1): 7-14.
[4]刘勇，王珣，高柏松，等.铁路重大突发地质灾害应急监测技术研究[J].铁道标准设计，2022，66（1）：26-32.
Liu Yong, Wang Xun, Gao Baisong, et al. Study on Emergency Monitoring Technology of Serious Railway Geological Disasters[J]. Railway Standard Design, 2022, 66(1): 26-32.
[5]中国铁路总公司.铁路防洪工作管理办法：铁总运[2017]8号[S].北京：中国铁路总公司，2017.
[6]王玉龙.智慧综合调度信息系统的三级部署研究[J].铁路通信信号工程技术，2023，20（11）：54-59.
Wang Yulong. Research on Three-Level Deployment of Intelligent Integrated Dispatching Information System[J]. Railway Signalling & Communication Engineering, 2023, 20(11): 54-59.
[7]田斌.铁路工务段安全生产指挥中心标准化体系研究[J].铁路技术创新，2020（2）：57-61.
Tian Bin. A Study on Standardization System of Operation Safety and Command Center of Track Maintenance Depot[J]. Railway Technical Innovation, 2020(2): 57-61.
[8]王同军.铁路5G关键技术分析和发展路线[J].中国铁路，2020（11）：1-9.
Wang Tongjun. Key Railway 5G Technology Analysis and Development Route[J]. China Railway, 2020(11): 1-9.
[9]李毅，董根才，蔺伟，等.边缘计算技术在铁路5G移动通信中的应用研究[J].中国铁路，2020（11）：23-30.
Li Yi, Dong Gencai, Lin Wei, et al. Research on Application of Edge Computing Technology in Railway 5G Mobile Communication[J]. China Railway, 2020(11): 23-30.
[10]李珉璇，赵耀，吴绍华，等.基于5G的新型铁路隧道防灾疏散救援监控系统研究[J].铁路通信信号工程技术，2023，20（7）：49-54，58.
Li Minxuan, Zhao Yao, Wu Shaohua, et al. Research on New 5G-Based Railway Tunnel Disaster Prevention and Rescue Monitoring System[J]. Railway Signalling & Communication Engineering, 2023, 20(7): 49-54, 58.
[11]邓李政，袁宏永，张鸣之，等.滑坡变形监测预警技术研究进展[J].清华大学学报(自然科学版)，2023，63（6）：849-864.
Deng Lizheng, Yuan Hongyong, Zhang Mingzhi, et al. Research Progress on Landslide Deformation Monitoring and Early Warning Technology[J]. Journal of Tsinghua University (Science and Technology), 2023, 63(6): 849-864.
[12]戴粤，戴吾蛟，余文坤.综合地表与深部位移监测数据的滑坡多目标加权位移反分析方法[J].测绘学报，2022，51（10）：2149-2159.
Dai Yue, Dai Wujiao, Yu Wenkun. A Landslide Multi-Objective Weighted Displacement back Analysis Method Synthesizing Ground and Underground Displacement Monitoring Data[J]. Acta Geodaetica et Cartographica Sinica, 2022, 51(10): 2149-2159.
[13]李俊刚，樊艳，李可佳，等.高速铁路跨海特大桥综合监测及运维管理平台方案[J].铁路通信信号工程技术，2022，19（5）：44-48，61.
Li Jungang, Fan Yan, Li Kejia, et al. Comprehensive Monitoring and Operation and Maintenance Management Platform of Sea-Crossing High-Speed Railway Bridge[J]. Railway Signalling & Communication Engineering, 2022, 19(5): 44-48, 61.
[14]周宇晖.基于移动物联网的川藏铁路灾害监测系统研究[J].铁路通信信号工程技术，2020，17（6）：44-49.
Zhou Yuhui. Research on Disaster Monitoring System of Sichuan-Tibet Railway Based on Mobile Internet of Things[J]. Railway Signalling & Communication Engineering, 2020, 17(6): 44-49.
[15]蔡庆娥，赵冬，夏旺民.滑坡深部位移监测数据分析浅论[J].灾害学，2018，33（S1）：156-160.
[16]叶咸，高瑜，潘俊良.边坡深部位移监测孔测斜装置埋设方法探究[J].公路，2019，64（4）：6-11.
Ye Xian, Gao Yu, Pan Junliang. Research on the Embedding Method of Inclinometer for Deep Displacement Monitoring of Slope Engineering[J]. Highway, 2019, 64(4): 6-11.
[17]李连顺.高寒地区大型核设施环境γ剂量率自动连续监测网络方案研究[D].衡阳:南华大学，2012.
[18]王久平.尾矿库安全监测系统研究与实现[D].长沙:中南林业科技大学，2013.
[19]中华人民共和国信息产业部.通信局（站）防雷与接地工程设计规范：YD 5098-2005[S].北京：北京邮电大学出版社，2006.
[20]张永超.接地电阻在线测试及远程监测系统的设计与实现[J].铁路通信信号工程技术，2020，17（7）：51-55.
Zhang Yongchao. Design and Implementation of Online Testing and Remote Monitoring System for Grounding Resistance[J]. Railway Signalling & Communication Engineering, 2020, 17(7): 51-55.
[21]邓烨飞.铁路通信云容灾方案探讨[J].铁路通信信号工程技术，2024，21（4）：52-56，69.
Deng Yefei. Discussion on Disaster Recovery Solutions of Railway Communication Cloud[J]. Railway Signalling & Communication Engineering, 2024, 21(4): 52-56, 69.
[22]赵耀.智慧轨道交通云边端协同系统关键技术研究[J].铁路通信信号工程技术，2024，21（7）：41-48.
Zhao Yao. Research on Key Technologies of Cloud-Edge-End Collaborative System in Smart Rail Transit[J]. Railway Signalling & Communication Engineering, 2024, 21(7): 41-48.
[23]强常军.新建西安至安康高速铁路5G公网布设方案简析[J].铁路通信信号工程技术，2024，21（7）：49-54.
Qiang Changjun. Analysis of Layout Scheme of 5G Public Network in New-Built Xi’an-Ankang High-Speed Railway[J]. Railway Signalling & Communication Engineering, 2024, 21(7): 49-54.

Research on Construction Scheme for Geological Disaster Monitoring System of Railway Slopes

铁路边坡地质灾害监测系统建设方案研究

PDF

Knowledge

Abstract

Cite this article

share this article

Figures/Tables 8

References

Related Articles 15

Recommended Articles

Metrics

Comments

[1]	Yin Weihai, Zhou Yuhui, Li Xue, Pang Mengmeng. Research on Session Management for 5G-R MCX Roaming Subscribers [J]. Railway Signalling & Communication Engineering, 2024, 21(11): 46-53.
[2]	Zhao Liujun. Key Points of Public and Private Network Integration Design for Radio Communication of High-Speed Railways [J]. Railway Signalling & Communication Engineering, 2024, 21(11): 54-60.
[3]	Tang Lu. Analysis and Discussion on Problem of Video Stream Lag in Railway Emergency Communication System [J]. Railway Signalling & Communication Engineering, 2024, 21(11): 61-65.
[4]	Ren Chao, Liu Weichuan, Ge Weitao. 5G-R System Coverage Scheme for Long Railway Tunnels [J]. Railway Signalling & Communication Engineering, 2024, 21(10): 29-34.
[5]	Wang Xiao, Wang Xiaoyang. Research on Reliability Technologies for Train-Wayside Wireless Communication of Rail Transport Based on Public Network [J]. Railway Signalling & Communication Engineering, 2024, 21(10): 35-41.
[6]	. Research on Construction Scheme for Network Management Cloud Platform of Railway Communication [J]. Railway Signalling & Communication Engineering, 2024, 21(10): 42-48.
[7]	Chen Xiaoping, Liu Chang. Research on Resource Management System for Railway Data Communication Network Based on NetFlow and SNMP Protocols [J]. Railway Signalling & Communication Engineering, 2024, 21(10): 49-54.
[8]	Ding Jie. Research on Construction and Maintenance of Public Mobile Communication Network for Railway Stations [J]. Railway Signalling & Communication Engineering, 2024, 21(10): 55-60.
[9]	Yao Wei, Zhu Zengzheng. Optical Fiber Online Monitoring System Based on Idle Transmission Ports [J]. Railway Signalling & Communication Engineering, 2024, 21(10): 61-65.
[10]	Qiao Zhi. Research on Optimization Design Scheme for Dynamic Inspection System of 450 MHz Wireless Train Dispatching Communication System [J]. Railway Signalling & Communication Engineering, 2024, 21(10): 66-72.
[11]	Lin Yiming, Gao Xinjun. Research on Analysis Methods of Wireless Connection Timeout of High-Speed Railway [J]. Railway Signalling & Communication Engineering, 2024, 21(9): 39-43,78.
[12]	Cui Changchao. Application of Factory-Based Construction Technology for Railway Communication at Ningguo South Station of Xuancheng-Jixi High Speed Railway [J]. Railway Signalling & Communication Engineering, 2024, 21(9): 49-56.
[13]	Yang Li. Discussion on Clock Synchronization Scheme for Signaling System for Shanghai Urban Rail Transit [J]. Railway Signalling & Communication Engineering, 2024, 21(9): 85-91.
[14]	Wang Fei. In-Depth Analysis of Handover Failures Caused by Abnormal BSIC Decoding in GSM-R Lines#br# [J]. Railway Signalling & Communication Engineering, 2024, 21(8): 46-51,96.
[15]	Zhao Yao. Research on Key Technologies of Cloud-Edge-End Collaborative System in Smart Rail Transit [J]. Railway Signalling & Communication Engineering, 2024, 21(7): 41-48.