Design of Remote Open Control Scheme for Fully Automatic Unmanned Subway

Yuhang JING; Jianhui HUANG; Shangzhuo SI; Li ZHOU

doi:10.13890/j.issn.1000-128x.2021.01.016

您当前的位置：

首页 >

文章列表页 >

Design of Remote Open Control Scheme for Fully Automatic Unmanned Subway

Railway Rolling Stock | 更新时间：2021-12-09

- Design of Remote Open Control Scheme for Fully Automatic Unmanned Subway
- Electric Drive for Locomotives Issue 1, Pages: 86-90(2021)
- 作者机构：
  
  1.中车株洲电力机车有限公司，湖南　株洲　412001
- 作者简介：
- 基金信息：
- DOI：10.13890/j.issn.1000-128x.2021.01.016
  CLC：
扫描看全文
Yuhang JING, Jianhui HUANG, Shangzhuo SI, et al. Design of Remote Open Control Scheme for Fully Automatic Unmanned Subway. [J]. Electric Drive for Locomotives (1):86-90(2021)
DOI：

Yuhang JING, Jianhui HUANG, Shangzhuo SI, et al. Design of Remote Open Control Scheme for Fully Automatic Unmanned Subway. [J]. Electric Drive for Locomotives (1):86-90(2021) DOI： 10.13890/j.issn.1000-128x.2021.01.016.

摘要

为了解决全自动无人驾驶地铁车辆中无法实现空气断路器的人工复位问题，针对全自动无人驾驶系统的特点，提出了空气断路器矩阵监控方案与空开远程复位方案。该方案在上海18号线无人驾驶地铁车辆上进行实际应用并取得良好的效果。

Abstract

In order to solve the problem that the air circuit breaker cannot be manually reset in fully automatic unmanned subway vehicles, in view of the characteristics of the fully automatic unmanned system, the air circuit breaker matrix monitoring solution and the air circuit breaker remote reset solution were proposed in this paper. The program has been practically applicated to unmanned subway vehicles on Shanghai line 18 and achieved good results.

关键词

城市轨道交通全自动无人驾驶地铁空气断路器远程监控远程复位

Keywords

urban rail transitfully automatic driverlesssubwayair circuit breakerremote monitoringremote reset

references

李亘, 毛如香, 刘亚宁, 等. 全自动无人驾驶地铁车辆关键部件冗余设计优化方案[J]. 电力机车与城轨车辆, 2019, 42(1): 63-65.

LI Gen, MAO Ruxiang, LIU Yaning. Optimization scheme for redundant design of key components of fully automatic driverless metro vehicles[J]. Electric Locomotives and Mass Transit Vehicles, 2019, 42(1): 63-65.

路向阳, 吕浩炯, 廖云, 等. 城市轨道交通全自动驾驶系统关键装备技术综述[J]. 机车电传动, 2018(2): 1-6.

LU Xiangyang, LYU Haojiong, LIAO Yun, et al. A review of key apparatus of urban rail transit full automatic operation system[J]. Electric Drive for Locomotives, 2018(2): 1-6.

陈华银, 杜时勇. 无人驾驶地铁人员防护开关方案研究[J]. 铁道通信信号, 2018, 54(2): 84-88.

CHEN Huaying, DU Shiyong. Research on the protection switch scheme for unmanned subway personnel[J]. Railway Signalling and Communication, 2018, 54(2): 84-88.

张海涛, 梁汝军. 地铁列车全自动无人驾驶系统方案[J]. 城市轨道交通研究, 2015, 18(5): 33-37.

ZHANG Haitao, LIANG Rujun. Introduction to the unattended train operation system on metro train[J]. Urban Mass Transit, 2015, 18(5): 33-37.

姜岩, 赵熙俊, 龚建伟, 等. 简单城市环境下地面无人驾驶系统的设计研究[J]. 机械工程学报, 2012, 48(20): 103-112.

JIANG Yan, ZHAO Xijun, GONG Jianwei, et al. System design of self-driving in simplified urban environments[J]. Journal of Mechanical Engineering, 2012, 48(20): 103-112.

王曰凡. 全自动无人驾驶系统——全新理念的城市轨道交通模式[J]. 城市轨道交通研究, 2006, 9(8): 1-5.

WANG Yuefan. AUDS: a brand-new mode for urban mass transit[J]. Urban Mass Transit, 2006, 9(8): 1-5.

吴嘉, 史海欧. 全自动无人驾驶系统在地铁既有线改造中的机遇和挑战[J]. 城市轨道交通研究, 2019, 22(8): 8-12.

WU Jia, SHI Hai’ou. Opportunities and challenges of fully automatic operation in the reconstruction of existing metro lines[J]. Urban Mass Transit, 2019, 22(8): 8-12.

陈威. 全自动驾驶地铁车辆功能与优势研究[J]. 智能城市, 2019, 5(5): 86-87.

CHEN Wei. Research on functions and advantages of fully automatic driving metro vehicles[J]. Intelligent City, 2019, 5(5): 86-87.

陈艳艳, 曹宇. 无人驾驶地铁车辆电气屏柜防火安全设计[J]. 科技创新导报, 2019, 16(8): 70-72.

CHEN Yanyan, CAO Yu. Fire safety design of electrical panel cabinets for unmanned subway vehicles[J]. Science and Technology Innovation Herald, 2019, 16(8): 70-72.

刘艺. 地铁低压配电设计问题研究[J]. 隧道建设, 2019, 39(1): 125-129.

LIU Yi. Research on design issues for low-voltage distribution in metro project[J]. Tunnel Construction, 2019, 39(1): 125-129.

曾要争, 高琦. 轨道交通无人驾驶技术特点及其发展[J]. 机车车辆工艺, 2018(5): 9-11.

ZENG Yaozheng, GAO Qi. Characteristics and development of unpiloted driving technologies for rail transit[J]. Locomotive and Rolling Stock Technology, 2018(5): 9-11.

赵保锋. 无人驾驶地铁调度指挥模式初探[J]. 中国高新科技, 2018(12): 55-57.

ZHAO Baofeng. Preliminary study on dispatching and commanding mode of unmanned subway[J]. China Hi-tech, 2018(12): 55-57.

肖芃, 刘维萍. 浅谈地铁无人驾驶系统设计[J]. 中国设备工程, 2017(21): 100-101.

XIAO Peng, LIU Weipin. Discussion on the design of metro unmanned driving system[J]. China Plant Engineering, 2017(21): 100-101.

杨勇. 城市轨道交通无人驾驶的关键技术特点分析[J]. 城市轨道交通研究, 2017, 20(增刊1): 84-87.

YANG Yong. Analysis of the key technical characters of urban rail transit driverless train[J]. Urban Mass Transit, 2017, 20(Suppl 1): 84-87.

Views

下载量

CSCD

CNKI被引量

Alert me when the article has been cited

提交

Tools

Publicity Resources

Research and application of green and low-carbon innovation in Beijing subway

Development of mechanical anti-slip resilient wheel

Research on Performance Optimization of Running Air-cooled Heat Pipe Radiator Based on Temperature Equalization Technology

Hybrid Power Metro Rail Grinding Wagon

Study on abnormal abrasion of metro pantograph

Related Author

No data

Related Institution

Beijing Mass Transit Railway Operation Co., Ltd.

Zhuzhou Times New Material Technology Co., Ltd.

CRRC Zhuzhou Institute Co., Ltd.

Zhuzhou CRRC Times Electric Co., Ltd.

Zhuzhou Times Electronic Technology Co., Ltd.

⁰