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Preliminary communication

https://doi.org/10.7307/ptt.v27i2.1487

Dwell Time Modelling and Optimized Simulations for Crowded Rail Transit Lines Based on Train Capacity

Zhibin Jiang
Chao Xie ; Tongji University
Tingting Ji ; Tongji University
Xiaolei Zou ; Tongji University


Full text: english PDF 529 Kb

page 125-135

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Abstract

Understanding the nature of rail transit dwell time has potential benefits for both the users and the operators. Crowded passenger trains cause longer dwell times and may prevent some passengers from boarding the first available train that arrives. Actual dwell time and the process of passenger alighting and boarding are interdependent through the sequence of train stops and propagated delays. A comprehensive and feasible dwell time simulation model was developed and optimized to address the problems associated with scheduled timetables. The paper introduces the factors that affect dwell time in urban rail transit systems, including train headway, the process and number of passengers alighting and boarding the train, and the inability of train doors to properly close the first time because of overcrowded vehicles. Finally, based on a time-driven micro-simulation system, Shanghai rail transit Line 8 is used as an example to quantify the feasibility of scheduled dwell times for different stations, directions of travel and time periods, and a proposed dwell time during peak hours in several crowded stations is presented according to the simulation results.

Keywords

dwell time; train capacity; train delay; timetable simulation; rail transit; passenger volume

Hrčak ID:

140930

URI

https://hrcak.srce.hr/140930

Publication date:

13.4.2015.

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