Planning Urban Ring Rail Transit Lines Case Study of Shanghai, China
Authored by Saeid Saidi, S C Wirasinghe, Lina Kattan, Yuxiong Ji, Cheng Cheng, Jinping Guan, Shengchuan Jiang, Yuchuan Du
Date Published: 2016
DOI: 10.3141/2540-07
Sponsors:
National Science and Engineering Research Council of Canada (NSERC)
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Mathematical description
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Abstract
Shanghai, China, has the largest metro system in the world, with a
network length of more than 550 km. Both Shanghai and Beijing are among
the top five cities in terms of ridership, and some of the most
important components of their metro systems are the ring transit lines.
Many other cities, in China and elsewhere, also envision a ring transit
line for their future rail transit networks. A previously developed
analytical model for the long-range planning of ring transit lines was
used in the comparison of the current alignment of the Shanghai ring
line with the optimized model output, and a second ring transit line was
recommended for the future Shanghai network. The findings suggest that
the alignment of an existing ring line would affect the optimal
alignment of the second ring line. In addition, if an outer ring line
exists (or is planned to be constructed), the optimal location of the
inner ring line might not be its current location. Furthermore, a
sensitivity analysis was conducted to test the impact of changes on
demand, value of time, and passenger ride cost on the second ring line.
Zones that would benefit most from introduction of the second ring line
were also determined. Although the case study presents the Shanghai ring
lines, the outcomes provide useful information for other cities that are
considering the expansion of their transit network with a first or
second ring line. Unlike simulations and agent-based models, the model
presented in this study is easily transferable to any transit network.
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