Kim, M. E., Schonfeld, P., 2015. Maximizing net benefits for conventional and flexible bus services.
Trans. Res. Part A 80, 116–133.
Kuah, G. K., Perl, J., 1988. Optimization of feeder bus routes and bus-stop spacing, J. Transp. Eng.
114(3), 341–354.
Laver, R., Schneck, D., Skorupski, D., Brady, S., Cham, L., Hamilton, B.A., 2007. Useful life of transit
buses and vans. Federal Transit Administration.
Lee, E., Cen, X., Lo, H. K., 2021. Zonal-based flexible bus service under elastic stochastic demand.
Trans. Res. Part E 152, 102367.
Li, X., Quadrifoglio, L., 2010. Feeder transit services: Choosing between fixed and demand responsive
policy. Trans. Res. Part C 18(5), 770–780.
Luo, X., Gu, W., Fan, W., 2021. Joint design of shared-bike and transit services in corridors. Transport.
Res. Part C 132, 103366.
Martins, C. L., Pato, M. V., 1998. Search strategies for the feeder bus network design problem. Eur. J.
Oper. Res. 106(2–3), 425–440.
Mei, Y., Gu, W., Cassidy, M.J., Fan, W., 2021. Planning skip-stop transit service under heterogeneous
demands. Trans. Res. Part B 150, 503–523.
Mor, A., Speranza, M. G., Viegas, J. M., 2020. Efficient loading and unloading operations via a booking
system. Trans. Res. Part E 141, 102040.
Oldfield, R. H., Bly. P. H., 1988. An analytic investigation of optimal bus size. Trans. Res. Part B 22,
319–337.
Ouyang, Y., Nourbakhsh, S. M., Cassidy, M. J., 2014. Continuum approximation approach to bus
network design under spatially heterogeneous demand. Trans. Res. Part B 68, 333–344.
Quadrifoglio, L., Li, X., 2009. A methodology to derive the critical demand density for designing and
operating feeder transit services. Trans. Res. Part B 43(10), 922–935.
Sangveraphunsiri T., Cassidy M. J., Daganzo C.F., 2022. Jitney-lite: A flexible-route feeder service for
developing countries. Transport. Res. Part B 156, 1–13.
Shrivastava, P., O’Mahony, M., 2006. A model for development of optimized feeder routes and
coordinated schedules - A genetic algorithms approach. Transp. Policy 13(5), 413–425.
Sivakumaran, K., Li, Y., Cassidy, M. J., Madanat, S., 2012. Cost-saving properties of schedule
coordination in a simple trunk-and-feeder transit system. Trans. Res. Part A 46(1), 131–139.
Sivakumaran, K., Li, Y., Cassidy, M. J., Madanat, S., 2014. Access and the choice of transit technology.
Trans. Res. Part A 46(1), 131–139.
Su, Y., Fan, W., 2019. Heterogeneous Design for feeder services of trunk transit system. IEEE
Intelligent Transportation System Conference (ITSC), 339–344.
Texas Transportation Institute, 1996. Guideline for the location and design of bus stops. TCRP Report
19, Transportation Research Board, Washington D.C.
Yang, Y., Jiang, X., Fan, W., Yan, Y., Xia, L., 2020. Schedule coordination design in a trunk-feeder
transit corridor with spatially heterogeneous demand. IEEE Access 8, 96391–96403.
Yu, L., Xie, B., Chan, E. H., 2019. Exploring impacts of the built environment on transit travel: Distance,
time and mode choice, for urban villages in Shenzhen, China. Trans. Res. Part E 132, 57–71.
Wirasinghe, S. C., 1980. Nearly optimal parameters for a rail/feeder-bus system on a rectangular grid.
Trans. Res. Part A 14(1), 33–40.
Wu, L., Gu, W., Fan W., Cassidy, M. J., 2020. Optimal design of transit networks fed by shared bikes.
Trans. Res. Part B 131, 63–83.
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