Discussion and Prospect on Signaling System Mode of Pearl River Delta Intercity Railway#br#

doi:10.3969/j.issn.1673-4440.2024.07.014

Railway Signalling & Communication Engineering ›› 2024, Vol. 21 ›› Issue (7): 90-96.DOI: 10.3969/j.issn.1673-4440.2024.07.014

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Discussion and Prospect on Signaling System Mode of Pearl River Delta Intercity Railway#br#

Fan Yonghua¹, Jing Longgang¹, Qu Rui², Wei Gang³

1. Guangzhou Metro Design and Research Institute Co., Ltd., Guangzhou 510010, China;
2. Guangzhou Metro Group Co., Ltd., Guangzhou 510010, China;
3. Guangzhou Railway Sciences Intelligent Controls Co., Ltd., Guangzhou 510010, China

Received:2022-12-22 Revised:2024-05-13 Online:2024-07-25 Published:2024-07-25

珠三角城际市域快线信号系统制式探讨与展望

范永华¹，景龙刚¹，曲睿²，魏刚³

1.广州地铁设计研究院股份有限公司，广州 510010；
2.广州地铁集团有限公司，广州 510010；
3.广州铁科智控有限公司，广州 510010

作者简介:范永华（1982—），男，高级工程师，本科，主要研究方向：城市轨道交通信号，邮箱：fanyonghua@dtsjy.com。
基金资助:
广州地铁设计研究院股份有限公司科研项目（KY-B-2018-053）

Abstract

Abstract: Based on the characteristics of medium and high speed urban express lines, combined with the actual needs of Pearl River Delta urban agglomeration and the construction experience of Guangzhou Line 18 and Line 22, this paper studies the adaptability of urban rail transit ATC system and intercity railway CTC2+ATO system. Through the comparison of system performance and function, the intercity express line system of Pearl River Delta is discussed and prospected.

Key words: urban express line, Pearl River Delta, signaling system, mode discussion

摘要： 根据中高速市域快线的特点，结合珠三角城市群的实际需求和广州18号及22号线的建设经验，研究城市轨道交通ATC系统与城际铁路CTCS2+ATO系统的适应性，通过系统性能功能比较，对珠三角城际市域快线制式进行探讨和展望。

关键词: 市域快线, 珠三角, 信号系统, 制式探讨

CLC Number:

U239.5

Fan Yonghua, Jing Longgang, Qu Rui, Wei Gang. Discussion and Prospect on Signaling System Mode of Pearl River Delta Intercity Railway#br#[J]. Railway Signalling & Communication Engineering, 2024, 21(7): 90-96.

范永华, 景龙刚, 曲睿, 魏刚. 珠三角城际市域快线信号系统制式探讨与展望[J]. 铁路通信信号工程技术, 2024, 21(7): 90-96.

Figures/Tables 2

References

[1]王杰.CTCS-2级+ATO列车运行控制系统方案研究[J].铁道通信信号，2011，47（6）：11-14.
Wang Jie. Study on Combining CTCS-2 Level with ATO Train Control System[J]. Railway Signalling & Communication, 2011, 47(6): 11-14.
[2]席武夷.国铁CTCS与城轨CBTC列控系统的多网融合方案研究[J].铁道通信信号，2021，57（10）：81-85.
Xi Wuyi. Research on Solution to Multi-Network Integration of CTCS for National Railway and CBTC for Urban Rail Transit[J]. Railway Signalling & Communication, 2021, 57(10): 81-85.
[3]夏冷，赵亮.基于LTE车地通信的市域快线信号系统研究[J].铁路通信信号工程技术，2017，14（3）：5-9.
Xia Leng, Zhao Liang. Research on LTE-Based Train-Ground Communication of Signaling Systems for Intercity Commuter Railways[J]. Railway Signalling & Communication Engineering, 2017, 14(3): 5-9.
[4]武少峰.准移动闭塞系统针对市域快线的适用性分析[J].都市快轨交通，2014，27（3）：94-96.
Wu Shaofeng. Applicability Analysis about Regional Rail Rapid Line Adopting Quasi-Moving Block System[J]. Urban Rapid Rail Transit, 2014, 27(3): 94-96.
[5]齐文远.铁路与城市轨道交通信号控制系统比较分析[J].工程技术研究，2019，4（10）：126-127.
[6]刘思源.铁路与城市轨道交通信号控制系统比较和展望分析[J].现代职业教育，2020（22）：158-159.
[7]童超.市域铁路列车运行控制系统方案选择研究[J].铁道运输与经济，2022，44（7）：35-41.
Tong Chao. Study on Scheme Selection of Train Operation Control System in Urban Railway[J]. Railway Transport and Economy, 2022, 44(7): 35-41.
[8]张浙梁.铁路CTCS2+ATO列车运行控制系统技术研究[J].高速铁路技术，2019，10（6）：96-100.
Zhang Zheliang. Research on CTCS2+ATO Train Operation Control System Technology[J]. High Speed Railway Technology, 2019, 10(6): 96-100.
[9]池春玲，张伟，宋睿，等.都市圈轨道交通多网融合的信号系统方案研究[J].铁路通信信号工程技术，2024，21（1）：1-9.
Chi Chunling, Zhang Wei, Song Rui, et al. Research on Signaling System Scheme of Multi-Network Integration of Metropolitan Rail Transit[J]. Railway Signalling & Communication Engineering, 2024, 21(1): 1-9.
[10]路飞.列控联锁一体化系统多层次结构化设计实现[J].铁路通信信号工程技术，2024，21（1）：21-25.
Lu Fei. Multi-Level Structural Design and Realization of TIS System[J]. Railway Signalling & Communication Engineering, 2024, 21(1): 21-25.
[11]江坤，杨迪飞，刘佳.轻轨CBTC信号与DTC信号多制式兼容方法研究[J].铁路通信信号工程技术，2023，20（6）：71-76.
Jiang Kun, Yang Difei, Liu Jia. Research on Multi-Standard Compatibility Method of Light Rail CBTC and DTC Signal[J]. Railway Signalling & Communication Engineering, 2023, 20(6): 71-76.
[12]吴培栋.基于CTCS2+ATO的市域(郊)铁路列控系统技术研究[J].铁路通信信号工程技术，2023，20（7）：16-23.
Wu Peidong. Research on Technology of Suburban Railway Train Control System Based on CTCS2+ATO[J]. Railway Signalling & Communication Engineering, 2023, 20(7): 16-23.
[13]曹鹤飞，孟天旭，李昊.恒磁场对无源应答器影响及防护技术[J].铁路通信信号工程技术，2023，20（12）：1-6.
Cao Hefei, Meng Tianxu, Li Hao. Impacts of Constant Magnetic Field on Passive Balises and Its Protection Technologies[J]. Railway Signalling & Communication Engineering, 2023, 20(12): 1-6.
[14]张辉.基于互联互通需求的市域(郊)铁路信号系统分析[J].城市轨道交通研究，2023，26（11）：239-243，248.
Zhang Hui. Analysis of City (Suburban) Railway Signal System Based on Interconnection Requirements[J]. Urban Mass Transit, 2023, 26(11): 239-243, 248.
[15]刘秋生.都市圈市域铁路信号系统需求探讨[J].城市轨道交通研究，2023，26（6）：255-260.
[16]袁廷瑞，熊洁，路晓彤，等.高速铁路长大隧道GSM-R网络冗余组网方案分析[J].铁路通信信号工程技术，2024，21（1）：36-41.
Yuan Tingrui, Xiong Jie, Lu Xiaotong, et al. Analysis of GSM-R Redundancy Networking Scheme for Long Tunnel of High Speed Railway[J]. Railway Signalling & Communication Engineering, 2024, 21(1): 36-41.
[17]叶富智，范永华，苏航，等.广州18及22号线快慢车运营模式研究[J].铁路通信信号工程技术，2024，21（2）：67-71.
Ye Fuzhi, Fan Yonghua, Su Hang, et al. Research on Fast and Slow Train Operation Modes of Guangzhou Metro Line 18 and 22[J]. Railway Signalling & Communication Engineering, 2024, 21(2): 67-71.
[18]刘小龙，朱今朝，龙飞.城市轨道交通信号与车辆融合控制技术研究[J].铁路通信信号工程技术，2023，20（9）：71-76，96.
Liu Xiaolong, Zhu Jinzhao, Long Fei. Research on Fusion Control Technology of Urban Rail Transit Signal and Vehicle[J]. Railway Signalling & Communication Engineering, 2023, 20(9): 71-76, 96.

Discussion and Prospect on Signaling System Mode of Pearl River Delta Intercity Railway#br#

珠三角城际市域快线信号系统制式探讨与展望

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