%0 Journal Article
%T Understanding bikeshare mode as a feeder to metro by isolating metro-bikeshare transfers from smart card data
%J Transport policy
%D 2018
%A Ma, Xinwei
%A Ji, Yanjie
%A Yang, Mingyuan
%A Jin, Yuchuan
%A Tan, Xu
%V 71
%N 
%P 57-69
%X Though metro systems are established in many Chinese cities including Nanjing, they have yet covered every corner of a city. Bikeshare as a feeder mode to metro helps solve the last mile problem. Thus, it is necessary to monitor and analyze metro-bikeshare transfer characteristics. The primary objective of this study is to derive a reproducible methodology that isolates bicycle-metro transfer trips using smart card data. Two recognition rules proposed are a maximum transfer time of 10 min and a maximum transfer distance of 300 m. To explore the general characteristics of metro-bikeshare transfer trips, transfer stations served at less than 30 transfer trips during three consecutive weeks were eliminated to ensure that a non-typical transfer pattern would not distort the results. The results show that more than 89% passengers recognized have less than 6 transfers in 3 weeks, indicating that most users integrate bikeshare with metro impromptu. Two transfer peaks on workdays are during 7:00-9:00 and 17:00-19:00, especially in suburban areas, while at weekends, transfers show quite even during 8:00-19:00. As to "Return-Enter" and "Exit-Lease" transfer modes, the "time difference" phenomenon does exist, which means that the transfer peak of "Return-Enter"mode always happens one hour earlier than that of "Exit-Lease". Furthermore, the demographic differences in metro-bikeshare usage pattern are revealed. Finally, policy implications are involved to improve the performance of metro-bikeshare integration for all kinds of people without creating inequality.<p />
%G en
%I Elsevier Publishing
%@ 0967-070X
%U http://dx.doi.org/10.1016/j.tranpol.2018.07.008