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³¤°²´óѧѧ±¨£¨×ÔÈ»¿Æѧ°æ£©[ISSN:1006-6977/CN:61-1281/TN]

Issue:

2021Äê6ÆÚ

Page:

113-126

Research Field:

½»Í¨¹¤³Ì

Publishing date:

Info

Title:

Classification of urban rail transit stations based onª¤passenger flow time series

Author(s):

MA Zhuangª²linª¬1;  YANG Xingª¬1;  TAN Xiaoª²weiª¬2;  MA Feiª¬3;  WANG Jinª¬4

(1. College of Transportation Engineering, Chang¡¯an University, Xi¡¯an 710064, Shaanxi, China;ª¤2. School of Automobile, Chang¡¯an University, Xi¡¯an 710064, Shaanxi, China;ª¤3. School of Economics and Management, Chang¡¯an University, Xi¡¯an 710064, Shaanxi, China;ª¤4. Yunnan Science Research Institute of Communication Co., Ltd., Kunming 650011, Yunnan, China)

Keywords:

traffic engineering;  urban rail transit;  classification of station;  smart card data;  passenger flow characteristic;  principal component analysis;  Gaussian mixed model

PACS:

-

DOI:

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Abstract:

Amid at different types of stations have significant differences in the aspects of regional characteristics, traffic functions and land use functions, and scientific and reasonable station classification was used to helpful to understand urban functional zoning, interpret residents¡¯ travel characteristics, comprehend urban pattern and evolution, and evaluate the construction of rail transit infrastructure. The principal component analysis (PCA) was used to extract the characteristics of passenger flow data, and the Hopkins statistics was used to analyze the clustering trend and determine the number of clustering categories. The advantages and disadvantages of Gaussian mixture model (GMM) and Kª²means clustering were compared by using CH coefficient, Silhouette coefficient and DB index. GMM was used to identify the types of rail transit stations based on the smart card data of two consecutive working days of Nanjing rail transit in 2017. The results show that the effectiveness of three indicators of GMM method are better than that of Kª²means clustering method under the same input variables and iterations. Nanjing rail transit stations are divided into six types, namely residentialª²oriented station, employmentª²oriented station, spatial mismatched station, mixed mainly residentialª²oriented station, mixed mainly employmentª²oriented station, and hub comprehensive station by using the GMM. Nanjing rail transit stations have obvious characteristics of ring structure from the perspective of spatial distribution. The urban center area with densely populated is dominated by employmentª²oriented and mixed mainly residentialª²oriented station, the main urban area with moderate population density is dominated by mixed stations (such as spatial mismatched station, mixed mainly residentialª²oriented station, and mixed mainly employmentª²oriented station), and the outer suburbs with low population density have relative single function. There are 14 rail transit stations with a population density of more than 20 000 people per kmª¬2, which are mainly employmentª²oriented and mixed mainly employmentª²oriented stations. There are 16 rail transit stations with a population density of 10 000~20 000 people per kmª¬2, which are mainly employmentª²oriented, spatial mismatched, and mixed mainly employmentª²oriented stations. There are 12 rail transit stations with a population density of 5 000~10 000 people per kmª¬2, which are mainly spatial mismatched, mixed mainly residentialª²oriented, and mixed mainly employmentª²oriented stations. It can identify the peak period of passenger flow in urban rail transit stations on weekdays, and provide guidance for the department of operation and management of urban rail transit to formulate effective inbound and outbound passenger flow organization of the station and avoid the mass incidents like stampedes caused by impact of large passenger flow. 5 tabs, 14 figs, 37 refs.ª¤

References:

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Memo:

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Common functions

Last Update: 2021-12-14