A Key Station Identification Method for Urban Rail Transit: A Case Study of Beijing Subway

Abstract: INTRODUCTIONWith the rapid development of urban rail transit network operation technique, the increase of passenger volume leads to congestion in stations [1], causing even safety risk in the network [2]. Besides, the topology of urban rail transit network can also aggravate or relief the congestion situation of subway networks. Therefore, an effective method identified the key station is an imperative to manage the overcrowded urban rail transit.For the factors of the station performance, many of the current … Show more

“…Moreover, some scholars have considered PFV (passenger flow volume) while exploring network features, as it reflected the transportation capacity of RTN. The importance ranking of RTN nodes has been determined based on the variance contribution of each indicator using techniques like Technique for Order of Preference by Similarity to Ideal Solution (TOPSIS) and factor analysis [ 33 , 34 ]. It has been pointed out that attacks based on the highest load node could result in more damages compared with the attacks based on the largest degree node [ 35 ].…”

Assessment and solutions for vulnerability of urban rail transit network based on complex network theory: A case study of Chongqing

“…Moreover, some scholars have considered PFV (passenger flow volume) while exploring network features, as it reflected the transportation capacity of RTN. The importance ranking of RTN nodes has been determined based on the variance contribution of each indicator using techniques like Technique for Order of Preference by Similarity to Ideal Solution (TOPSIS) and factor analysis [ 33 , 34 ]. It has been pointed out that attacks based on the highest load node could result in more damages compared with the attacks based on the largest degree node [ 35 ].…”

Assessment and solutions for vulnerability of urban rail transit network based on complex network theory: A case study of Chongqing

“…With the rapid development of information technology, large amounts of data over time and space are available to model urban dynamics. In particular, monitoring, recognising and analysing human mobility patterns is becoming a hot issue in transport and urban planning [39][40]. Urban traffic arises from an interplay between the dynamics of the individual movements and its underlying structure.…”

Weighted Complex Network Analysis of the Difference Between Nodal Centralities of the Beijing Subway System

Research on the Route Choice Behavior of Subway Passengers Based on AFC Data