A Calculation Method of Passenger Flow Distribution in Large-Scale Subway Network Based on Passenger–Train Matching Probability

Su, Guanghui; Si, Bingfeng; Zhi, Kun; Li, He

doi:10.3390/e24081026

Cited by 8 publications

(4 citation statements)

References 31 publications

(52 reference statements)

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“…They also assumed that the delay caused by crowding and high-capacity utilization of the train occurred at the origin and transfer stations with equal probabilities. Su et al [27] assumed an equal distance from different gates to the platform and the same waiting time distribution during the same period. However, these idealized assumptions may not accurately reflect the actual behavior of passengers.…”

Section: Literature Reviewmentioning

confidence: 99%

Estimating Left Behind Passengers and Train Loads in Congested Urban Rail Transit Networks: A Data-Driven Passenger-to-Train Assignment Approach

Zeng,

Chen

2024

IEEE Access

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This study presents a data-driven approach for assigning passengers to individual trains. The approach is based on the correlation between the passenger tap-in/out time and train arrival/departure time. We classified passengers into three types according to the number of transfers. First, we propose an inference algorithm to obtain sets of feasible trains that passengers can take on each line. Subsequently, we used the maximum likelihood approach to estimate the egress walking time parameters of each station. We assume that these parameters follow a normal distribution. The estimation depends on the egress walking time of the reference passenger. We assume that passengers take the train with the smallest distance between the egress walking time and mathematical expectation of the destination station. By removing unreasonable trains, the study determines the number of times passengers are left behind owing to in-vehicle congestion. We then propose an assignment approach for transferring passengers based on the reference transfer time. Finally, we applied the approach to a case study of Nanjing, China, during morning peak hours. This study provides a novel method for studying passenger behavior at the microcosmic level.INDEX TERMS Left behind, passenger assignment, train load, urban rail transit.

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Section: Literature Reviewmentioning

confidence: 99%

Estimating Left Behind Passengers and Train Loads in Congested Urban Rail Transit Networks: A Data-Driven Passenger-to-Train Assignment Approach

Zeng,

Chen

2024

IEEE Access

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“…Furthermore, Li et al [22] explored the impact of height on pedestrian route selection in these stations, while Wei et al [23] focused on the optimized design of security systems. Additionally, Li et al [24] modeled passenger group panic in emergency situations, Zhao et al [25] investigated passengers' dependency on station functions, and Su et al [26] developed calculation methods for passenger flow distribution. On the other hand, Lee et al [27] analyzed subway passengers' route preferences, while Yang et al [28] concentrated on passenger evacuation path planning in emergency situations.…”

Section: Existing Studies On Escalators In Urban Railway Stationsmentioning

confidence: 99%

Analyzing Escalator Infrastructures: A Pilot Study in Santiago Metro

López,

Tapia,

Seriani

2023

Applied Sciences

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The behavior of passengers in urban railway stations (i.e., metro stations) is dependent on environmental, cultural, and temporal factors. This affects how escalator infrastructures are used, with some passengers standing on one side of the steps to allow others to walk and, in other cases, others standing or walking on both sides of the steps. In this research, escalator infrastructures were studied to better understand the relationship between different conditions and passenger behaviors through a method based on video cameras, passenger detection techniques, and a simulation framework. The results indicate that passenger behavior could affect escalator infrastructure as it varies significantly depending on the time of day, type of station, local culture, and other environmental factors. The implications of these findings for the planning and design of the infrastructure of railway stations are discussed, and practical recommendations are proposed to improve the efficiency of escalator usage in urban railway stations.

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“…In 2019, Beijing's rail transit system (excluding suburban railways) completed 3.962 billion passengers, with an average daily passenger volume of 10.856 million [3]. A large number of passengers rushed into the subway system in a short time, resulting in many passengers being stranded on the platform [4,5] or squeezed in crowded carriages. Especially in peak hours, the problem of detention and congestion on the platform is more serious.…”

Section: Introductionmentioning

confidence: 99%

Collaborative passenger flow control model and linearization operator considering platform capacity constraints in metro system

Su,

Si,

Zhao

et al. 2023

Eighth International Conference on Electromechanical Control Technology and Transportation (ICECTT 2023)

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A Calculation Method of Passenger Flow Distribution in Large-Scale Subway Network Based on Passenger–Train Matching Probability

Cited by 8 publications

References 31 publications

Estimating Left Behind Passengers and Train Loads in Congested Urban Rail Transit Networks: A Data-Driven Passenger-to-Train Assignment Approach

Estimating Left Behind Passengers and Train Loads in Congested Urban Rail Transit Networks: A Data-Driven Passenger-to-Train Assignment Approach

Analyzing Escalator Infrastructures: A Pilot Study in Santiago Metro

Collaborative passenger flow control model and linearization operator considering platform capacity constraints in metro system

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