铁路通信信号工程技术 ›› 2021, Vol. 18 ›› Issue (4): 89-99,103.DOI: 10.3969/j.issn.1673-4440.2021.04.017
于长洪,吴炳昊,刘 刚
出版日期:
2021-04-25
发布日期:
2021-08-16
Yu Changhong, Wu Binghao, Liu Gang
Online:
2021-04-25
Published:
2021-08-16
摘要: 从中欧不同的标准起源开始,对中欧铁路标准分别进行简要介绍,并分析中欧铁路标准差异。以铁路通信信号领域标准为主要关注点,分析中外铁路工程项目执行差异,将海外铁路工程项目划分为初步设计阶段、详细设计阶段、安装调试阶段、和测试验收阶段4个通用性阶段,描述了各阶段的主要任务。最后,基于工程项目实际,分析标准体系差异对海外项目实施的影响,给出相应的对策,供海外项目参考,希望帮助提升海外项目的整体管控能力,助力“一带一路”。
中图分类号:
于长洪, 吴炳昊, 刘 刚. 中欧铁路标准体系差异及海外铁路项目对策分析[J]. 铁路通信信号工程技术, 2021, 18(4): 89-99,103.
Yu Changhong, Wu Binghao, Liu Gang. Analysis of Chinese and European Railway Standard System Differences and Foreign Railway Projects Solutions[J]. Railway Signalling & Communication Engineering, 2021, 18(4): 89-99,103.
[1] European Commission.Fourth Railway Package of 2016[EB/OL].(2020-09-12) [2020-09-12]. https://ec.europa.eu/transport/modes/rail/packages/2013_en. [2] David F. Back to Basics: Train Protection[J]. IRSE News, 2020(268): 10-20. [3] European Council.Council Directive 96/48/EC of 23 July 1996 on the Interoperability of the Trans-European High-speed Rail System[J]. Official Journal of the European Communities, 1996, 39(L235):6-24. [4] European Parliament, European Council.Directive 2001/16/EC of the European Parliament and of the Council of 19 March 2001 on the Interoperability of the Trans-European Conventional Rail System[J]. Official Journal of the European Communities, 2001, 44(L 110):1-27. [5] European Parliament, European Council. Directive 2008/57/EC of the European Parliament and of the Council of 17 June 2008 on the Interoperability of the Rail System within the Community[J]. Official Journal of the European Union, 2008, 51(L 191):1-45. [6] European Commission. Commission Communication in the Framework of the Implementation of the Directive 2008/57/EC of the European Parliament and of the Council on the Interoperability of the Rail System within the Community[J]. Official Journal of the European Union, 2018, 61(C 282): 6-23. [7] European Commission. Commission Implementing Decision (EU) 2020/453 of 27 March 2020 on the Harmonised Standards for Railway Products Drafted in Support of Directive 2008/57/EC of the European Parliament and of the Council on the Interoperability of the Rail System within the Community[J]. Official Journal of the European Union, 2020, 63(L95): 1-7. [8] European Commission. Commission Regulation (EU) 2016/919 of 27 May 2016 on the Technical Specification for Interoperability Relating to the ‘Control-command and Signalling’ Subsystems of the Rail System in the European Union[J]. Official Journal of the European Union, 2016, 59(L 158): 1-79. [9] European Parliament, European Council. Directive 2004/49/EC of the European Parliament and of the Council of 29 April 2004 on Safety on the Community’s Railways and Amending Council Directive 95/18/EC on the Licensing of Railway Undertakings and Directive 2001/14/EC on the Allocation of Railway Infrastructure Capacity and the Levying of Charges for the Use of Railway Infrastructure and Safety Certification[J]. Official Journal of the European Union,2004,47(L 164): 44–113. [10] European Commission. Commission Regulation (EC) No 352/2009 of 24 April 2009 on the Adoption of a Common Safety Method on Risk Evaluation and Assessment As Referred to in Article6(3)(a) of Directive 2004/49/EC of the European Parliament and of the Council[J]. Official Journal of the European Union, 2009, 52(L 108): 177-192. [11] European Commission. Commission Implementing Regulation (EU) No 402/2013 of 30 April 2013 on the Common Safety Method for Risk Evaluation and Assessment and Repealing Regulation (EC) No 352/2009[J]. Official Journal of the European Union, 2013, 56(L121): 8–25. [12] CENELEC. BS EN 50126-2:2017 Railway Applications-The Specification and Demonstration of Reliability, Availability, Maintainability and Safety (RAMS)-Part 2: Systems Approach to Safety[S]. London:British Standards Institution, 2017: 9-13. [13] UNISIG. Subset-088 ETCS Application Levels 1 & 2-Safety Analysis Part 0-Document Overview 3.7.0[Z]. Europe: UNISIG, 2019. [14] UNISIG. Subset-091 Safety Requirements for the Technical Interoperability of ETCS in Levels 1 & 2 3.6.0[Z]. Europe: UNISIG, 2016. [15] European Parliament, European Council. Regulation (EU) 2016/796 of the European Parliament and of the Council of 11 May 2016 on the European Union Agency for Railways and Repealing Regulation (EC) No 881/2004[J]. Official Journal of the European Union, 2016, 59(L138): 1-43. [16] European Parliament, European Council. Directive (EU) 2016/797 of the European Parliament and of the Council of 11 May 2016 on the Interoperability of the Rail System within the European Union[J]. Official Journal of the European Union, 2016, 59(L138): 44-101. [17] European Parliament, European Council. Directive (EU) 2016/798 of the European Parliament and of the Council of 11 May 2016 on Railway Safety[J]. Official Journal of the European Union, 2016, 59(L138): 102-149. [18] Wikimedia. European Union Agency for Railways[EB/OL]. (2020-05-09)[2020-09-21].https://en.wikipedia.org/wiki/European_Union_Agency_for_Railways. [19] European Parliament, European Council. Regulation (EC) No 881/2004 of the European Parliament and of the Council of 29 April 2004 Establishing A European Railway Agency[J]. Official Journal of the European Union, 2004, 47(L164):1-43. [20] European Union Agency for Railways. One Year of ERTMS Trackside Approvals[Z]. European Union Agency for Railways Newsletter, 2020:3-4. [21] 郭玉华.借鉴ETCS完善CTCS技术规范体系的研究[J].铁道标准设计,2016,60(10):136-140. Guo Yuhua.Perfecting CTCS Technical Specifications with Reference to ETCS[J]. Railway Standard Design, 2016, 60(10): 136-140. |
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