Overall framework, key technologies and application demonstration of intelligent service of Beijing-Zhangjiakou high-speed railway
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摘要: 京张高铁是支撑北京2022年冬奥会和冬残奥会(简称:冬奥会)成功举办的重要交通基础设施,冬奥会期间将面临旅客需求多样、线路条件复杂、安全保障要求高等重大挑战。为此,文章从服务、安全、文化展示3大方面系统分析京张高铁智能化服务总体需求,在此基础上,设计面向冬奥会出行的京张高铁智能化服务总体架构,提出亟待解决的关键科学问题和6项关键技术,并在冬奥会期间开展国际化售票服务、智能站车服务、智能动车组、安全大数据应用、地下站隧虚拟交互导引和融合展示服务、京张高铁文化视觉展示等典型应用示范。项目的系列成果,将为我国新一轮高铁产业增长提供技术动力,同时,带动相关领域的技术和经济发展,进一步提高中国高铁在全球的品牌地位,助力“一带一路”倡议的实施。Abstract: Beijing-Zhangjiakou high-speed railway is an important transportation infrastructure to support the successful holding of the 2022 Beijing Winter Olympic Games and Winter Paralympic Games (hereinafter referred to as the Olympic Winter Games). During the Olympic Winter Games, it will face major challenges such as diverse passenger demand, complex line conditions and high security requirements. Therefore, this paper systematically analyzed the general demand of Beijing-Zhangjiakou high-speed railway intelligent service from three aspects of service, safety and cultural display. On this basis, the paper designed the overall framework of intelligent service for Beijing-Zhangjiakou high-speed railway for the Olympic Winter Games travel, put forward key scientific problems and 6 key technologies to be solved, and proposed the typical application demonstration to be carried out during the Olympic Winter Games, such as international ticketing service, intelligent station-train service, intelligent EMU, security big data application, virtual interactive guidance and integrated display service of underground station and tunnel, visual display of Beijing-Zhangjiakou high-speed railway culture, etc. The series of achievements of the project will provide technical impetus for the new round of high-speed railway industry growth in China, at the same time, drive the technological and economic development in relevant fields, and further improve the brand status of China's high-speed railway in the world, help the implementation of Belt and Road initiative.
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[1] 王同军, 何华武, 田红旗. 智能高速铁路体系架构与标准体系[M]. 北京: 中国铁道出版社, 2020. [2] 王同军. 中国智能高速铁路体系架构研究及应用 [J]. 铁道学报,2019,41(11):1-9. [3] 王同军. 中国智能高速铁路发展战略研究 [J]. 中国铁路,2019(1):9-14. [4] 王同军. 智能铁路总体架构与发展展望 [J]. 铁路计算机应用,2018,27(7):1-8. [5] 何华武,朱 亮,李 平,等. 智能高速铁路体系框架研究 [J]. 中国铁路,2019(3):1-8. [6] 王洪雨. 智能京张高速铁路总体创新设计 [J]. 铁道标准设计,2020,64(1):7-11. [7] 李红侠. 京张高速铁路智能化技术应用进展 [J]. 铁道标准设计,2021,65(5):158-161. [8] 马建军,李 平,马小宁,等. 铁路一体化信息集成平台总体架构及关键技术研究 [J]. 中国铁道科学,2020,41(5):153-161. DOI: 10.3969/j.issn.1001-4632.2020.05.18 [9] 王同军. 中国铁路大数据应用顶层设计研究与实践 [J]. 中国铁路,2017(1):8-16. [10] 史天运,刘 军,李 平,等. 铁路大数据平台总体方案及关键技术研究 [J]. 铁路计算机应用,2016,25(9):1-6. [11] N. Attohokine. Big data challenges in railway engineering[C]//In 2014 IEEE International Conference on Big Data (Big Data). Washington, DC, USA: IEEE, 2014: 7-9.
[12] F. Ghofrani, Q. He, R. M. P. Goverde, X. Liu. Liu. Recent applications of big data analytics in railway transportation systems: A survey [J]. Transportation Research Part C: Emerging Technologies, 2018, 90: 226-246. DOI: 10.1016/j.trc.2018.03.010
[13] 马建军,李 平,邵 赛,等. 智能高速铁路关键技术研究及发展路线图探讨 [J]. 中国铁路,2020(7):1-8. [14] 谢文广,刘 军,陈同喜,等. 铁路安全大数据分析平台研究 [J]. 铁路计算机应用,2020,29(9):21-25. [15] 荆 伟,刘 军,张 军,等. 铁路局安全大数据应用总体方案研究 [J]. 铁路计算机应用,2020,29(2):30-33, 43. -
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