Abstract
Abstract. Buses are considered as an important type of feeder model for urban metro systems. It is important to understand the integration of buses and metro systems for promoting public transportation. Using smart card data generated by automatic fare collection systems, we aim at exploring the characteristics of bus-and-metro integration. Taking Shanghai as a case study, we first introduced a rule-based method to extract metro trips and bus-and-metro trips from the raw smart card records. Based on the identified trips, we conducted three analyses to explore the characteristics of bus-and-metro integration. The first analysis showed that 46% users have at least two times of using buses to access metro stations during five weekdays. By combining the ridership of metro and bus-and-metro, the second analysis examined how the share of buses as the feeder mode change across space and time. Results showed that the share of buses as the feeder mode in morning peak hours is much larger than in afternoon peak hours, and metro stations away from the city center tend to have a larger share. Pearson correlation test was employed in the third analysis to explore the factors associated with the ratios of bus-and-metro trips. The metro station density and access metro duration are positively associated with the ratios. The number of bus lines around 100 m to 400 m of metro stations all showed a negative association, and the coefficient for 200 m is the largest. In addition, the temporal differences of the coefficients also suggest the importance of a factor might change with respect to different times. These results enhanced our understanding of the integration of buses and metro systems.
Highlights
Metro systems are a preferred public transport mode worldwide, because of their fast speed and high passenger capacity
This study focuses on using smart card (SC) data to explore the characteristics of bus-and-metro integration
We analyze the bus-and-metro trips from three different aspects: the general trip characteristics, spatiotemporal patterns, and the factors associated with the metro-andride ridership and ratios
Summary
Metro systems are a preferred public transport mode worldwide, because of their fast speed and high passenger capacity. Building a metro system that covers every point in a city is difficult due to the high costs of construction and some policy limitations (e.g. historical zones). A preferred metro station is not always accessible by non-motorized transport modes (e.g. walking or biking). Thereby, to improve the accessibilities of the metro systems, many feeder bus lines are built around the metro stations. Besides increasing the metro accessibilities, the integration of buses and metro systems plays a vital role in ensuring the success of multimodal transport systems. A well-designed bus-metro transport network can improve the overall accessibility of public transport, offering chances to increase public transport use. It is essential to understand the integration of buses and metro systems
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