摘要
随着长三角高质量一体化发展等各项政策的落地实施,城市群一体化进程加快。上海作为长三角的核心城市,承担着引领和推动城市群一体化发展的使命,以上海市为主体、辐射长三角的市域铁路正在大力建设,对其开展运维管理模式的研究迫在眉睫。分析市域铁路运维管理模式种类及其特点,研究发现影响运维管理模式选择的因素众多且复杂、难以定量化,故选用适合解决此类问题的AHP法进行建模运算,发现自管自运方案下的运维一体化模式更适合上海市域铁路,该管理模式绩效管理明晰,管理流程更高效,成本管控更透明,不仅有利于上海市域铁路的健康、持续发展,也可以进一步增强其城市服务的功能,并为后期延伸至长三角区域奠定基础。
With the implementation of various policies such as high-quality integrated development in the Yangtze River Delta,the process of urban agglomeration integration has accelerated.As the core city of the Yangtze River Delta,Shanghai undertakes the mission of leading and promoting the integrated development of urban agglomerations.The urban railway with Shanghai as the main body and radiating the Yangtze River Delta is being vigorously constructed.It is urgent to carry out the research on its operation and maintenance management mode.By analyzing the types and characteristics of urban railway operation and maintenance management modes,it is found that the factors affecting the selection of operation and maintenance management modes are numerous,complex and difficult to quantify.Therefore,the AHP method suitable for solving such problems is selected for modeling and calculation.It is found that the operation and maintenance integration mode under the self-management and self operation scheme is more suitable for Shanghai municipal railway.The performance management of this management mode is clear,the management process is more efficient,and the cost control is more transparent,It is not only conducive to the healthy and sustainable development of Shanghai municipal railway,but also can further enhance its urban service function,and lay the foundation for its later extension to the Yangtze River Delta region.
作者
项鸣麒
陈颖雪
于莉
李俊芳
Xiang Mingqi;Xu Ganfeng;Chen Yingxue;Li Junfang(Shanghai Suburban Railway Operation Co.,Ltd,Shanghai 201102,China)
出处
《上海城市管理》
2022年第4期61-68,共8页
Shanghai Urban Management
基金
上海市哲社规划办一般项目(2021ZGL002)的阶段性研究成果。
关键词
上海市域铁路
城市服务
运维管理模式
AHP法
Shanghai Municipal Railway
urban services
operation and maintenance management mode
AHP method