[1]郝建英.基于修正TOPSIS理论的铁路关键线路方案优选研究[J].高速铁路技术,2023,(04):79-83.[doi:10.12098/j.issn.1674-8247.2023.04.015]
 HAO Jianying.A Study on Optimization of Railway Critical Alignment Schemes Based on Modified TOPSIS Theory[J].HIGH SPEED RAILWAY TECHNOLOGY,2023,(04):79-83.[doi:10.12098/j.issn.1674-8247.2023.04.015]
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基于修正TOPSIS理论的铁路关键线路方案优选研究()
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《高速铁路技术》[ISSN:1674-8247/CN:51-1730/U]

卷:
期数:
2023年04期
页码:
79-83
栏目:
出版日期:
2023-08-30

文章信息/Info

Title:
A Study on Optimization of Railway Critical Alignment Schemes Based on Modified TOPSIS Theory
文章编号:
1674-8247(2023)04-0079-05
作者:
郝建英
中国铁路沈阳局集团有限公司,沈阳 110001
Author(s):
HAO Jianying
China Railway Shenyang Group Co. ,Ltd. ,Shenyang? 110001 ,China
关键词:
高速铁路铁路选线TOPSIS方案优选熵权法
Keywords:
high-speed railwayrailway route selectionTOPSISscheme optimizationentropy weight method
分类号:
U212.3
DOI:
10.12098/j.issn.1674-8247.2023.04.015
文献标志码:
A
摘要:
为提高山区铁路选线的合理性,以沈白高速铁路某区段为研究背景,构建以修正TOPSIS理论为基础的山区高速铁路选线评价模型,选取线路长度、桥隧长度、周边环境影响、工程投资等评价指标,采用修正TOPSIS理论和熵权法对拟采用的3种方案进行优选,结果表明:(1)基于熵权法和修正TOPSIS选线模型中3种方案的推荐度:方案Ⅰ>方案Ⅲ>方案Ⅱ;(2)3种方案的线路长度基本相当,方案Ⅰ线路平面线型略差,但工程投资节省明显,且对村庄拆迁影响更小,线路初选结果为方案Ⅰ(并行抚通高速公路短隧道方案);(3)基于修正TOPSIS选线模型优选出的方案与实际论证结果一致,本文提出的修正TOPSIS选线模型有一定的合理性和可行性。研究成果可为山区铁路选线设计提供参考。
Abstract:
This study aims to improve the rationality of route selection for railways in mountainous areas. By taking a section of Shenyang-Baihe High-speed Railway as a case for study,an evaluation model of route selection for mountainous high-speed railways based on modified TOPSIS theory was established in the paper. Evaluation indicators such as route length,bridge and tunnel length,surrounding environmental impact,and project investment were selected. The modified TOPSIS theory and entropy weight method were employed to optimize three proposed schemes. The results show that:(1)The recommendation degree of the three optional schemes based on the entropy weight method and modified TOPSIS route selection model is as follows:Option Ⅰ > Option Ⅲ > Option Ⅱ.(2)The route lengths of the three options are comparable,and Option I has a slightly worse planar alignment but significant cost savings in project cost. It also has a relatively smaller impact on village relocation. The preliminary selection result of the route is Option Ⅰ(Running parallel to Futong Expressway with short tunnels).(3)The scheme selected by the modified TOPSIS route selection model is consistent with the actual demonstration results,indicating that the proposed model has certain rationality and feasibility. The findings can provide a reference for the route selection of railways in mountainous areas.

参考文献/References:

[1]勾红叶,刘畅,班新林,等. 高速铁路桥梁-轨道体系检测监测与行车安全研究进展[J]. 交通运输工程学报,2022,22(1):1-23. GOU Hongye,LIU Chang,BAN Xinlin,et al. Research Progress of Detection,Monitoring and Running Safety of Bridge-track System for High-speed Railway[J]. Journal of Traffic and Transportation Engineering,2022,22(1):1-23.
[2]王阳. 铁路选线的制约因素和对策分析[J]. 工程建设与设计, 2022(18):54-56. WANG Yang. Analysis of Restricting Factors and Countermeasures of Railway Route Selection[J]. Construction & Design for Engineering,2022(18):54-56.
[3]牛远程. 高压气体及弱成岩地层山区铁路综合选线[J]. 铁道工程学报,2022,39(8):12-17. NIU Yuancheng. Research on the Comprehensive Railway Line Selection in Mountainous Area of High Pressure Gas and Weak Diagenetic Stratum[J]. Journal of Railway Engineering Society, 2022,39(8):12-17.
[4]唐冬冬. 基于层次分析法的高速铁路选线研究[J]. 铁道工程学报,2022,39(2):14-18,29. TANG Dongdong. Research on the Route Selection of High-speed Railway Based on Analytic Hierarchy Process[J]. Journal of Railway Engineering Society,2022,39(2):14-18,29.
[5]郭强. 重庆至贵阳铁路选线中主要控制因素的应用[J]. 高速铁路技术,2022,13(2):71-75.GUO Qiang. Application of Major Control Factors of the Route Selection for Chongqing-Guiyang Railway[J]. High Speed Railway Technology,2022,13(2):71-75.
[6]叶堃,丁浩江,王富平. 成贵铁路兴文到威信越岭段工程地质选线研究[J]. 路基工程,2022(4):136-139. YE Kun,DING Haojiang,WANG Fuping. Study on Engineering Geological Line Selection for Xingwen to Weixin over Mountain Section of Chengdu-Guiyang Railway[J]. Subgrade Engineering, 2022(4):136-139.
[7]高鹏展. 基于AHP-Dijkstra算法的高速铁路选线方案研究[J].科学技术创新,2022(27):80-84. GAO Pengzhan. Study on Route Selection Scheme of High-speed Railway Based on AHP-Dijkstra Algorithm[J]. Scientific and Technological Innovation,2022(27):80-84.
[8]刘琦,谢毅,胡新明,等. 基于地质实体的铁路选线优化与决策模型设计[J]. 高速铁路技术,2022,13(5):1-4,19. LIU Qi,XIE Yi,HU Xinming,et al. Railway Route Optimization and Decision-making Model Design Based on Geological Entities[J]. High Speed Railway Technology,2022,13(5):1-4,19.
[9]杨天琪,陈超. 文山至蒙自铁路复杂山区选线策略分析[J]. 交通与运输,2022,38(6):45-49. YANG Tianqi,CHEN Chao. Route Selection Strategy in Complex Mountainous Areas of Wenshan-Mengzi Railway[J]. Traffic &Transportation,2022,38(6):45-49.
[10]王哲威,冯涛,杜宇本,等. 地质横断面选线技术在铁路工程中的应用[J]. 高速铁路技术,2022,13(6):69-73. WANG Zhewei,FENG Tao,DU Yuben,et al. Application of Geological Cross-section Route Selection Technology in Railway Engineering[J]. High Speed Railway Technology,2022,13(6):69-73.

[11]赵长石. 基于组合赋权-二维云模型的铁路线路方案优选研究[J/OL]. 铁道标准设计. 2022 :1-9. ZHAO Changshi. Optimization of Railway Route Scheme Based on Combinatorial Weighted Two-dimensional Cloud Mode[J/OL]. Railway Standard Design. 2022 :1-9.

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备注/Memo

备注/Memo:
收稿日期:2023-02-13
作者简介:郝建英(1976-),男,高级工程师。
更新日期/Last Update: 2023-08-30