References
- Bamberg, S., Ajzen, I., and Schmidt, P. (2003). Choice of travel mode in the theory of planned behavior: The role of past behavior, habit, and reasoned action. Basic and Applied Social Psychology, 25(3), 175–187.
- Bordagaray, M., Ibeas, A., and Dell'Olio, L. (2012). Modeling user perception of public bicycle services. Procedia - Social and Behavioral Sciences, 54, 1308–1316.
- Borndorfer, R., Karbstein, M., and Pfetsch, M. E. (2012). Models for fare planning in public transport. Discrete Applied Mathematics, 160, 2591–2605.
- Broach, J., Dill, J., and Gliebe, J. (2012). Where do cyclists ride? A route choice model developed with revealed preference GPS data. Transportation Research Part A, 46, 1730–1740.
- Caggiani, L. and Ottomanelli, M. (2013). A dynamic simulation based model for optimal fleet repositioning in bike-sharing systems. Procedia: Social and Behavioral Sciences, 87, 203–210.
- Campbell, A. A. (2012). Factors Influencing the Choice of Shared Bicycles and Electric Bicycles in Beijing–A Stated Preference Approach. Master degree thesis, University of Tennessee, Knoxville.
- Campbell, A. A., Cherry, C. R., Ryerson, M. S., and Yang, X. (2016). Factors influencing the choice of shared bicycles and shared electric bikes in Beijing. Transportation Research Part C, 67, 399–414.
- Cervero, R. (1981). Flat versus differentiated transit pricing: What's a fair fare? Transportation, 10, 211–232.
- Cervero, R. (1982). The transit pricing evaluation model: A tool for exploring fare policy options. Transportation Research Part A, 16A(4), 313–323.
- Cervero, R. (1990). Transit pricing research: A review and synthesis. Transportation, 17, 117–139.
- Cervero, R. and Duncan, M. (2003). Walking, bicycling, and urban landscapes: Evidence from the San Francisco Bay area. American Journal of Public Health, 93(9), 1478–1483.
- Cervero, R., Sarmiento, O., Jacoby, E., Gomez, L., and Neiman, A. (2009). Influences of built environments on walking and cycling: Lessons from Bogotá. International Journal of Sustainable Transportation, 3, 203–226.
- Chemla, D., Meunier, F., and Calvo, R. W. (2013). Bike sharing systems: Solving the static rebalancing problem. Discrete Optimization, 10, 120–146.
- Cheng, Y. H. and Kuo, H. Y. (2010). Exploring the customer's choice behavior towards two combined perishable product services: Evidence from hotel and high-speed rail services. Transportation Planning Journal, 39(4), 381–412. (in Chinese)
- Concas, S., Winters, P. L., and Wambalaba, F. W. (2005). Fare pricing elasticity, subsidies, and demand for vanpool services. Transportation Research Record, Journal of Transportation Research Board, 1924, 215–223.
- Corcoran, J., Li, T., Rohde, D., Chaeles-Edwards, E., and Mateo-Babiano, D. (2014). Spatial-temporal patterns of a public bicycle sharing program: The effect of weather and calendar events. Journal of Transport Geography, 41, 292–305.
- Dell'Amico, M., Hadjicostantinou, E., Iori, M., Novellani, S. (2014). The bike sharing rebalancing problem: Mathematical formulations and benchmark instances. Omega, 45, 7–19.
- DeMaio, P. (2009). Bike-sharing: History, impacts, models of provision, and future. Journal of Public Transportation, 12(4), 41–56.
- Efthymiou, D., Antoniou, C., and Waddell, P. (2013). Factors affecting the adoption of vehicle sharing systems by young drivers. Transport Policy, 29, 64–73.
- Etienne, C. and Latifa, O. (2014). Model-based count series clustering for bike sharing system usage mining: A case study with the Velib’ system of Paris. ACM Transactions on Intelligent Systems and Technology, 5(3), 39.1–39.21.
- Faghih-Imani, A., Eluru, N., El-Geneidy, A. M., Rabbat, M., and Haq, U. (2014). How land-use and urban form impact bicycle flows: Evidence from the bicycle-sharing system (BIXI) in Montreal. Journal of Transport Geography, 41, 306–314.
- Fishman, E., Washington, S. and Haworth, N. (2013). Bike share: A synthesis of the literature. Transport Review, 33(2), 148–165.
- Fishman, E., Washington, S., and Haworth, N. (2012). Barriers and facilitators to public bicycle scheme use: A qualitative approach. Transportation Research Part F, 15, 686–698.
- Fishman, E., Washington, S., Haworth, N., Mazzei, A. (2014). Barriers to bikesharing: An analysis from Melbourne and Brisbane. Journal of Transport Geography, 41, 325–337.
- García-Palomares, J. C., Gutiérrez, J., and Latorre, M. (2012). Optimizing the location of stations in bike-sharing programs: A GIS approach. Applied Geography, 35, 235–246.
- Goodman, A. and Cheshire, J. (2014). Inequalities in the London bicycle sharing system revisited: Impacts of extending the scheme to poorer areas but then doubling prices. Journal of Transport Geography, 41, 272–279.
- Hensher, D. A., Rose, J. M., and Greene, W. H. (2005). Applied Choice Analysis: A primer. Cambridge: Cambridge University Press.
- Hickey, R. L. (2005). Impact of transit fare increase on ridership and revenue: Metropolitan Transportation Authority, New York City. Transportation Research Record: Journal of Transportation Research Board, 1927, 239–248.
- Hopkinson, P. and Wardman, M. (1996). Evaluating the demand for new cycle facilities. Transport Policy, 3(4), 241–249.
- Hu, S. R. and Liu, C. T. (2014). An optimal location model for the bicycle sharing system: A case study of the Kaohsiung City-Bike system. Transportation Planning Journal, 43(4), 367–392. (in Chinese)
- Jou, R. C., Chen, C. C., and Wu, P. H. (2008). A study on the effects of different road pricing scenarios on auto/motorbike commuter's choice behavior. Journal of the Chinese Institute of Civil and Hydraulic Engineering, 20(2), 229–239. (in Chinese)
- Kanafani, A. (1983). Transportation Demand Analysis. New York: McGraw-Hill, Inc.
- Kirby, R. F. (1982). Pricing strategies for public transportation. Journal of the American Planning Association, 48(3), 327–334.
- Kraemer, J. D., Roffenbender, J. S., and Anderko, L. (2012). Helmet wearing among users of a public bicycle-sharing program in the District of Columbia and comparable riders on personal bicycles. American Journal of Public Health, 102(8), e23–e25.
- Li, J., Ren, C., Shao, B., Wang, Q., He, M., and Dong, J. (2012). A solution for reallocating public bike among bike stations, 2012 9th IEEE International Conference on Networking, Sensing and Control (ICNSC), 352–355, Beijing.
- Lin, J. R. and Yang, T. H. (2011). Strategic design of public bicycle sharing systems with service. Transportation Research Part E, 47, 284–294.
- Lin, J. R., Yang, T. H., and Chang, Y.C. (2013). A hub location inventory model for bicycle sharing system design: Formulation and solution. Computers & Industrial Engineering, 65, 77–86.
- Litman, T. (2004). Transit price elasticities and cross-elasticities. Journal of Public Transportation, 7(2), 37–58.
- Litman, T. (2004). Transit price elasticities and cross-elasticities. Journal of Public Transportation, 7(2), 37–58.
- Martin, E. W. and Shaheen, S. A. (2014). Evaluating public transit model shift dynamics in response to bikesharing: A tale of two U.S. cities. Journal of Transport Geography, 41, 315–324.
- MayorWatch Publications Limited (2013). Fall in Cycle Hire use raises new questions over value for money, Retrieved on September 16, 2014, website: http://www.mayorwatch.co.uk/fall-in-cycle-hire-use-raises-new-questions-over-value-for-money/.
- Ministry of Transportation and Communications (2015). Taiwanese Mode Choice Survey. Ministry of Transportation and Communications: Taipei.
- Moudon, A., Lee C., Cheadle, A., Collier, C., Johnson, D., Schmid, T., and Weather, R. (2005). Cycling and the built environment: A US perspective. Transportation Research Part D, 10, 245–261.
- Murphy, E. and Usher, J. (2015). The role of bicycle-sharing in the city: Analysis of the Irish experience. International Journal of Sustainable Transportation, 9(2), 116–125.
- Nakamura, H. and Abe, N. (2014). The role of a non-profit organization-run public bicycle-sharing programme: The case of Kitakyushu City, Japan. Journal of Transport Geography, 41, 338–345.
- Nuworsoo, C., Golub, A., and Deakin, E. (2009). Analyzing equity impacts of transit fare changes: Case study of Alameda-Contra Costa Transit, California. Evaluation and Program Planning, 32, 360–368.
- O'Brien, O., Cheshire, J., and Batty, M. (2014). Mining bicycle sharing data for generating insights into sustainable transport systems. Journal of Transport Geography, 34, 262–273.
- Ortuzar, J. D. D., Iacobelli, A., and Valeze, C. (2000). Estimating demand for a cycle-way network. Transportation Research Part A: Policy and Practice, 34(5), 353–373.
- Raviv, T. and Kolka, O. (2013). Optimal inventory management of a bike-sharing station. IIE Transactions, 45(10), 1077–1093.
- Raviv, T., Tzur, M., and Forma, I. A. (2013). Static repositioning in a bike-sharing system: Models and solution approaches. EURO Journal on Transportation and Logistics, 2, 187–229.
- Rixey, R. A. (2013). Station-level forecasting of bikesharing ridership: Station network effects in three U.S. systems. Transportation Research Records: Journal of the Transportation Research Board, 2387, 46–55.
- Romero, J. P., Ibeas, A., Moura, J. L., Benavente, J., and Alonso, B. (2012). A simulation-optimization approach to design efficient systems of bike-sharing, Procedia: Social and Behavioral Sciences, 54, 646–655.
- Sayarshad, H., Tavassoli, S., and Zhao, F. (2012). A multi-periodic optimization formulation for bike planning and bike utilization. Applied Mathematical Modelling, 36, 4944–4951.
- Shaheen, S. A., Zhang, H., Martin, E., and Guzman, S. (2011). China's Hangzhou public bicycle: Understanding early adoption and behavioral response to bikesharing. Transportation Research Records: Journal of the Transportation Research Board, 2247, 33–41.
- Shaheen, S., Guzman, S., and Zhang, H. (2010). Bikesharing in Europe, the Americas, and Asia: Past, present, and future. Transportation Research Record: Journal of the Transportation Research Board, 2143, 159–167.
- Soltani, A. and Allan, A. (2006). Analyzing the impacts of microscale urban attributes on travel: Evidence from suburban Adelaide, Australia. Journal of Urban Planning and Development, 132, 132–137.
- Steinsiek, D. (2015). 800 cities, 1 million bicycles in bike sharing worldwide. European Cyclists' Federation, Brussels, http://www.ecf.com/news/800-cities-1-million-bicycles-in-bike-sharing-worldwide/ [2015.06.11]
- Thi Consultants Inc. (2014). A Study on Sustainable Developments for Public Bike System in Taipei City. Project report to the Department of Transportation. Thi Consultants Inc.: Taipei City Government, Taipei (in Chinese).
- Tran, T. D., Ovtracht, N., and Faivre d'Arcier, B. (2015). Modeling bike sharing system using built environment factors. Procedia CIRP, 30, 293–298.
- Transportation Research Board (2004). Traveler Response to Transportation System Changes: Chapter 12, Transit Pricing and Fares. Washington D. C.: Transportation Research Board.
- Vogel, M., Hamon, R., Lozenguez, G., Merchez, L., Abry, P., Barnier, J., Borgnat, P., Flandrin, P., Mallon, I., and Robardet, C. (2014). From bicycle sharing system movements to users: A typology of Velo'v cyclists in Lyon based on large-scale behavioural dataset. Journal of Transport Geography, 41, 280–291.
- Vogel, P., Greiser, T., and Mattfeld, D. C. (2011). Understanding bike-sharing systems using data mining: Exploring activity patterns. Procedia: Social and Behavioral Sciences, 20, 514–523.
- Wang, G. H. K. and Skinner, D. (1984). The impact of fare and gasoline price changes on monthly transit ridership: Empirical evidence from seven U.S. transit authorities. Transportation Research Part B, 18B(1), 29–41.
- Wen, C. H. and Lai, S. C. (2010). Latent class models of international air carrier choice. Transportation Research Part E, 46(2), 211–221.
- Winters, M., Teschke, K., Grant, M., Setton, E., and Brauer, M. (2010). How far out of the way will we travel? Built environment influences on route selection for bicycle and car travel. Transportation Research Record: Journal of the Transportation Research Board, 2190, 1–10.
- YouBike (2016). 2016/01 Monthly Rentals at Taipei City, http://taipei.youbike.com.tw/cht/f212.php?nid=77fe4bdfc6c8025c7bcd778d8d927940&rows=20&page=1 [2016.02.21]
- Zhang, M. (2004). The role of land use in travel mode choice. Journal of the American Planning Association, 70(3), 344–360.
- Zhao, J., Deng, W., and Song Y. (2014). Ridership and effectiveness of bikesharing: The effects of urban features and system characteristics on daily use and turnover rate of public bikes in China. Transport Policy, 35, 253–264.
- Zhao, P. (2014). The impact of the built environment on bicycle commuting: Evidence from Beijing. Urban Studies, 51(5), 1019–1037.
- Zhou, J. and Schweitzer, L. (2011). Getting drivers to switch: Transit price and service quality among commuters. Journal of Urban Planning and Development, 137(4), 477–483.