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A platform for research: civil engineering, architecture and urbanism
Relationship of Walk Access Distance to Rapid Rail Transit Stations with Personal Characteristics and Station Context
This paper explores the relationship of walk access distance to rapid rail transit (RRT) stations with personal characteristics and station context, specifically in regard to an operated RRT system in the city of Nanjing, China. Both descriptive analysis and regression analysis on the commuter survey are conducted to reveal the association. Descriptive analysis indicates that the walk access distance in the morning peak is longer than that in the afternoon peak. Young commuters walk farther to access to RRT stations than children and older people. The walk access distance decreases with increasing household income. Regression analysis, in particular, on the association between walk access distance and station context suggests that commuters walk farther to reach a terminal station but walk a shorter distance to arrive at a transfer station than to a typical station. The walk access distance to an elevated station is longer than that to an underground station, and an approximately 100-m distance premium does seem to exist. In addition, the radius of the pedestrian catchment area (PCA) of an underground RRT station is about 200–300 m longer than the PCA of bus rapid transit station. Implications of the present study include defining flexible rail transit station’s PCAs in estimating urban rail transit (URT) ridership at the station level, optimizing the house location and price premium analysis around URT stations, and identifying the opportunities for transit-oriented development in the PCA of rail stations.
Relationship of Walk Access Distance to Rapid Rail Transit Stations with Personal Characteristics and Station Context
This paper explores the relationship of walk access distance to rapid rail transit (RRT) stations with personal characteristics and station context, specifically in regard to an operated RRT system in the city of Nanjing, China. Both descriptive analysis and regression analysis on the commuter survey are conducted to reveal the association. Descriptive analysis indicates that the walk access distance in the morning peak is longer than that in the afternoon peak. Young commuters walk farther to access to RRT stations than children and older people. The walk access distance decreases with increasing household income. Regression analysis, in particular, on the association between walk access distance and station context suggests that commuters walk farther to reach a terminal station but walk a shorter distance to arrive at a transfer station than to a typical station. The walk access distance to an elevated station is longer than that to an underground station, and an approximately 100-m distance premium does seem to exist. In addition, the radius of the pedestrian catchment area (PCA) of an underground RRT station is about 200–300 m longer than the PCA of bus rapid transit station. Implications of the present study include defining flexible rail transit station’s PCAs in estimating urban rail transit (URT) ridership at the station level, optimizing the house location and price premium analysis around URT stations, and identifying the opportunities for transit-oriented development in the PCA of rail stations.
Relationship of Walk Access Distance to Rapid Rail Transit Stations with Personal Characteristics and Station Context
Zhao, Jinbao (author) / Deng, Wei (author)
Journal of Urban Planning and Development ; 139 ; 311-321
2013-04-05
112013-01-01 pages
Article (Journal)
Electronic Resource
English
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