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| ???org.dspace.app.webui.jsptag.ItemTag.dcfield??? | Value | Language |
|---|---|---|
| dc.contributor.advisor | 石曜合 | zh_TW |
| dc.contributor.advisor | Yau-Huo Shr | en |
| dc.contributor.author | 王紫彤 | zh_TW |
| dc.contributor.author | Tzu-Tung Wang | en |
| dc.date.accessioned | 2025-07-30T16:16:11Z | - |
| dc.date.available | 2025-07-31 | - |
| dc.date.copyright | 2025-07-30 | - |
| dc.date.issued | 2025 | - |
| dc.date.submitted | 2025-07-24 | - |
| dc.identifier.citation | 內政部統計處,2024。「113年第38週內政統計通報」。
行政院人事行政總處,2023。中華民國一百一十二年政府行政機關辦公日曆表。 行政院人事行政總處,2024。中華民國一百一十三年政府行政機關辦公日曆表。 行政院內政部,2025。112學年度各級學校分布位置。(https://www.tgos.tw/MDE/MetaData/CRUD/ViewMetaData?GUID=e66ba740-fd7a-467f-9393-5275f57692f1&VIEW_TYPE=only&SOURCE=1) (2025/03/18) 行政院公共工程委員會,2011。「政府電子採購網」。(https://web.pcc.gov.tw/tps/QueryTender/query/searchTenderDetail?pkPmsMain=NTA0NjA3NTc=) (2025/05/14) 行政院交通部,2023。「111年民眾日常使用運具狀況調查摘要分析」。(https://www.motc.gov.tw/ch/app/data/view?module=survey&id=56&serno=202304280009) 行政院國家發展委員會,2023。『臺灣2050淨零轉型「運具電動化及無碳化」關鍵戰略行動計畫(核定本)』。 行政院交通部,2025。「交通統計查詢網」。(https://statis.motc.gov.tw/motc/Statistics/Display?Seq=102) (2025/05/09) 新北市政府交通局,2024。「新北市公共自行車租賃系統(YouBike2.0)」。(https://data.ntpc.gov.tw/datasets/010e5b15-3823-4b20-b401-b1cf000550c5) (2024/12/09) 新北市政府交通局,2025。「新北YouBike首站大鵬華城設置完成」。(https://www.ntpc.gov.tw/ch/home.jsp?id=28&parentpath=0,6,27&mcustomize=multimessages_view.jsp&dataserno=294471&mserno=201309100001) (2025/05/14) 臺北市政府交通局,2024。「YouBike2.0臺北市公共自行車即時資訊」。(https://data.taipei/dataset/detail?id=c6bc8aed-557d-41d5-bfb1-8da24f78f2fb) (2024/12/04) 臺北市政府交通局,2024。「臺北捷運車站出入口座標」。(https://data.taipei/dataset/detail?id=c6bc8aed-557d-41d5-bfb1-8da24f78f2fb) (2025/03/18) 臺北市政府交通局,2025。「臺北市議會第14屆第5次定期大會-臺北市政府交通局工作報告」。 臺北市政府交通局,2025。第14屆第5次定期大會交通局工作報告。 臺北市政府交通局,2024。「北市減碳綠運輸 2月28日起騎YouBike前30分鐘免費」 YouBike 微笑單車,2025。「認識YouBike」。(https://www.youbike.com.tw/region/main/about-youbike/milestones/) (2025/05/10) Biki. (2022). Bike share around the world. GoBiki.org. (https://gobiki.org/biki-leaks/bikeshare-around-the-world/) (2025/05/10) Brakewood, C., Macfarlane, G. S., & Watkins, K. (2015). The impact of real-time information on bus ridership in New York City. Transportation Research Part C: Emerging Technologies, 53, 59-75. Brough, R., Freedman, M., & Phillips, D. C. (2023). Eliminating Fares to Expand Opportunities: Experimental Evidence on the Impacts of Free Public Transportation on Economic and Social Disparities. American Economic Journal: Economic Policy. Callaway, B., & Sant’Anna, P. H. (2021). Difference-in-differences with multiple time periods. Journal of Econometrics, 225(2), 200-230. Campbell, K. B., & Brakewood, C. (2017). Sharing riders: How bikesharing impacts bus ridership in New York City. Transportation Research Part A: Policy and Practice, 100, 264-282. Chen, J., & Roth, J. (2024). Logs with zeros? Some problems and solutions. The Quarterly Journal of Economics, 139(2), 891-936. DeMaio, P. (2009). Bike-sharing: History, impacts, models of provision, and future. Journal of Public Transportation, 12(4), 41-56. Fishman, E. (2016). Bikeshare: A review of recent literature. Transport Reviews, 36(1), 92-113. Fishman, E., Washington, S., & Haworth, N. (2013). Bike share: a synthesis of the literature. Transport Reviews, 33(2), 148-165. Fishman, E., Washington, S., & Haworth, N. (2014). Bike share’s impact on car use: Evidence from the United States, Great Britain, and Australia. Transportation Research Part D: Transport and Environment, 31, 13-20. 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. Fuller, D., Gauvin, L., Kestens, Y., Daniel, M., Fournier, M., Morency, P., & Drouin, L. (2011). Use of a new public bicycle share program in Montreal, Canada. American Journal of Preventive Medicine, 41(1), 80-83. Fuller, D., Gauvin, L., Kestens, Y., Morency, P., & Drouin, L. (2013). The potential modal shift and health benefits of implementing a public bicycle share program in Montreal, Canada. International Journal of Behavioral Nutrition and Physical Activity, 10, 1-6. Gebhart, K., & Noland, R. B. (2014). The impact of weather conditions on bikeshare trips in Washington, DC. Transportation, 41, 1205-1225. Heaney, A. K., Carrión, D., Burkart, K., Lesk, C., & Jack, D. (2019). Climate change and physical activity: estimated impacts of ambient temperatures on bikeshare usage in New York City. Environmental Health Perspectives, 127(3), 037002. Heger, M., Wheeler, D., Zens, G., & Meisner, C. (2019). Motor Vehicle Density and Air Pollution in Greater Cairo: Fuel Subsidy Removal & Metro Line Extension and their Effect on Congestion and Pollution?. The National Academies of Sciences, Engineering, and Medicine. Helpman, E., Melitz, M., & Rubinstein, Y. (2008). Estimating trade flows: Trading partners and trading volumes. The Quarterly Journal of Economics, 123(2), 441-487. Henley, J. (2005). Rentabike moves up a gear from curiosity to runaway success. The Guardian. August, 12. Hou, L., Wang, Y., Zheng, Y., & Zhang, A. (2022). The impact of vehicle ownership on carbon emissions in the transportation sector. Sustainability, 14(19), 12657. Imai, K., & Kim, I. S. (2021). On the Use of Two-Way Fixed Effects Regression Models for Causal Inference with Panel Data. Political Analysis, 29(3), 405–415. doi:10.1017/pan.2020.33 Jurdak, R. (2013). The impact of cost and network topology on urban mobility: A study of public bicycle usage in 2 US cities. PloS One, 8(11), e79396. Kaviti, S., Venigalla, M. M., & Lucas, K. (2019). Travel behavior and price preferences of bikesharing members and casual users: A Capital Bikeshare perspective. Travel Behaviour and Society, 15, 133-145. Lee, J., & Miller, H. J. (2022). Simple pre-post analysis overestimates the impacts of new public transit services on ridership: Evidence from a quasi-experimental study of new bus rapid transit in Columbus, Ohio, USA. Journal of Public Transportation, 24, 100035. Liu, C., Susilo, Y. O., & Karlström, A. (2015). The influence of weather characteristics variability on individual’s travel mode choice in different seasons and regions in Sweden. Transport Policy, 41, 147-158. Ma, X., Zhang, X., Li, X., Wang, X., & Zhao, X. (2019). Impacts of free-floating bikesharing system on public transit ridership. Transportation Research Part D: Transport and Environment, 76, 100-110. Marcus, M., & Sant’Anna, P. H. (2021). The role of parallel trends in event study settings: An application to environmental economics. Journal of the Association of Environmental and Resource Economists, 8(2), 235-275. Martin, E. W., & Shaheen, S. A. (2014). Evaluating public transit modal shift dynamics in response to bikesharing: a tale of two US cities. Journal of Transport Geography, 41, 315-324. Martin, R., & Xu, Y. (2022). Is tech-enhanced bikeshare a substitute or complement for public transit? Transportation Research Part A: Policy and Practice, 155, 63-78. Mayer, T., & Trevien, C. (2017). The impact of urban public transportation evidence from the Paris region. Journal of Urban Economics, 102, 1-21. Miao, Q., Welch, E. W., & Sriraj, P. S. (2019). Extreme weather, public transport ridership and moderating effect of bus stop shelters. Journal of Transport Geography, 74, 125-133. Midgley, P. (2011). Bicycle-sharing schemes: enhancing sustainable mobility in urban areas. United Nations, Department of Economic and Social Affairs, 8, 1-12. Miller, D. L. (2023). An introductory guide to event study models. Journal of Economic Perspectives, 37(2), 203-230. Moura, F., Valença, G., Félix, R., & Vale, D. S. (2023). The impact of public bike-sharing systems on mobility patterns: Generating or replacing trips?. International Journal of Sustainable Transportation, 17(11), 1254-1263. Mussetti, G., Davin, E. L., Schwaab, J., Acero, J. A., Ivanchev, J., Singh, V. K., ... & Seneviratne, S. I. (2022). Do electric vehicles mitigate urban heat? The case of a tropical city. Frontiers in Environmental Science, 10, 810342. Nair, R., Miller-Hooks, E., Hampshire, R. C., & Bušić, A. (2013). Large-scale vehicle sharing systems: analysis of Vélib'. International Journal of Sustainable Transportation, 7(1), 85-106. Noland, R. B., Smart, M. J., & Guo, Z. (2016). Bikeshare trip generation in New York city. Transportation Research Part A: Policy and Practice, 94, 164-181. Reiss, S., & Bogenberger, K. (2016). Validation of a relocation strategy for Munich's bike sharing system. Transportation Research Procedia, 19, 341-349. Ricci, M. (2015). Bike sharing: A review of evidence on impacts and processes of implementation and operation. Research in Transportation Business & Management, 15, 28-38. Roth, J. (2022). Pretest with caution: Event-study estimates after testing for parallel trends. American Economic Review: Insights, 4(3), 305-322. Roth, J. (2024). Interpreting event-studies from recent difference-in-differences methods. arXiv preprint arXiv:2401.12309. Saberi, M., Ghamami, M., Gu, Y., Shojaei, M. H. S., & Fishman, E. (2018). Understanding the impacts of a public transit disruption on bicycle sharing mobility patterns: A case of Tube strike in London. Journal of Transport Geography, 66, 154-166. Saneinejad, S., Roorda, M. J., & Kennedy, C. (2012). Modelling the impact of weather conditions on active transportation travel behaviour. Transportation Research Part D: Transport and Environment, 17(2), 129-137. Shaheen, S. A., Guzman, S., & Zhang, H. (2010). Bikesharing in Europe, the Americas, and Asia: past, present, and future. Transportation research Record, 2143(1), 159-167. Shaheen, S. A., Martin, E. W., Cohen, A. P., Chan, N. D., & Pogodzinski, M. (2014). Public bikesharing in North America during a period of rapid expansion: understanding business models, industry trends & user impacts. MTI Report, 12-29. Sharaby, N., & Shiftan, Y. (2012). The impact of fare integration on travel behavior and transit ridership. Transport Policy, 21, 63-70. Sharman, M. J., Stanesby, O., Jose, K. A., Greaves, S., & Cleland, V. J. (2025). Free bus fares, bus use and physical activity: An exploratory cross‐sectional study. Health Promotion Journal of Australia, 36(1), e881. Shukla, P. R., Skea, J., Slade, R., Al Khourdajie, A., van Diemen, R., McCollum, D., & Malley, J. (2022). Climate change 2022: Mitigation of climate change. Contribution of working group III to the sixth assessment report of the Intergovernmental Panel on Climate Change, 10, 9781009157926. Silva, J. S., & Tenreyro, S. (2006). The log of gravity. The Review of Economics and statistics, 641-658. Su, Y., Liu, X., & Li, X. (2020). Research on traffic congestion based on system dynamics: the case of Chongqing, China. Complexity, 2020(1), 6123896. Sun, F., Chen, P., & Jiao, J. (2018). Promoting public bike-sharing: A lesson from the unsuccessful Pronto system. Transportation Research Part D: Transport and Environment, 63, 533-547. Tao, S., Corcoran, J., Rowe, F., & Hickman, M. (2018). To travel or not to travel:‘Weather’is the question. Modelling the effect of local weather conditions on bus ridership. Transportation Research Part C: Emerging Technologies, 86, 147-167. Tsai, J. H., Hsu, Y. C., Weng, H. C., Lin, W. Y., & Jeng, F. T. (2000). Air pollutant emission factors from new and in-use motorcycles. Atmospheric Environment, 34(28), 4747-4754. U.S. Department of Transportation. (2016). The Value of Travel Time Savings: Departmental Guidance for Conducting Economic Evaluations Revision 2 (2016 Update). Vázquez-Grenno, J., Cervini-Pla, M., & TORRENS LLAMBRICH, X. A. V. I. E. R. (2024). The Impact of Fare Reductions on Public Transportation Use. Available at SSRN 5082619. Venigalla, M., Kaviti, S., & Brennan, T. (2020). Impact of bikesharing pricing policies on usage and revenue: An evaluation through curation of large datasets from revenue transactions and trips. Journal of Big Data Analytics in Transportation, 2, 1-16. Woodcock, J., Edwards, P., Tonne, C., Armstrong, B. G., Ashiru, O., Banister, D., ... & Roberts, I. (2009). Public health benefits of strategies to reduce greenhouse-gas emissions: urban land transport. The Lancet, 374(9705), 1930-1943. Zhang, J., Meng, M., & David, Z. W. (2019). A dynamic pricing scheme with negative prices in dockless bike sharing systems. Transportation Research Part B: Methodological, 127, 201-224. Zhang, Y., & Zhang, Y. (2018). Associations between public transit usage and bikesharing behaviors in the United States. Sustainability, 10(6), 1868. Zhou, M., Wang, D., Li, Q., Yue, Y., Tu, W., & Cao, R. (2017). Impacts of weather on public transport ridership: Results from mining data from different sources. Transportation Research Part C: Emerging Technologies, 75, 17-29. Zuniga-Garcia, N., Gurumurthy, K. M., Yahia, C. N., Kockelman, K. M., & Machemehl, R. B. (2022). Integrating shared mobility services with public transit in areas of low demand. Journal of Public Transportation, 24, 100032. | - |
| dc.identifier.uri | http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/98189 | - |
| dc.description.abstract | 公共自行車因不需仰賴燃料作為動力,具有低碳、節能及機動性高等特性,可作為連結公共運輸系統中第一哩路及最後一哩路的重要工具,使之成為現今世界各國相繼推動發展的綠色運具。臺北市為提升公共自行車的使用率,於2024年2月28日起實施YouBike 2.0公共自行車前30分鐘免費之政策。本研究以差異中之差異法,利用未實施政策的新北市作為對照組,以分析臺北市在政策實施前後,公共自行車及捷運使用量的變化。實證結果顯示,臺北市的公共自行車騎乘次數在政策實施後顯著提升了超過三成,且在不同時段及不同站點類型亦皆有顯著的正向影響,其中,非假日的騎乘次數相比於假日增幅高,分別提升34.20%與32.83%;非假日的不同時段中,晚尖峰時段增幅最顯著,達40.11%;此外,鄰近捷運站與學校站點的騎乘次數也呈現較高之使用增幅,分別為35.63%與39.81%。然而,捷運使用量並未受到顯著影響,因此沒有明確證據支持捷運與公共自行車使用存在替代或互補的關係。最後,本研究亦估算此政策所減少的燃油費用支出與時間節省的效益,並推估政策補助之成本,得出益本比約為1.27,顯示政策可有效提升社會福利。 | zh_TW |
| dc.description.abstract | Public bicycles are low-carbon, energy-efficient, and highly flexible transportation options that don't rely on fuel, serving as important green vehicles to bridge the first and last mile gaps in public transit systems worldwide. To promote public bicycle usage, Taipei City implemented a free 30-minute YouBike 2.0 policy starting on February 28, 2024. This study employs a Difference-in-Differences approach, using New Taipei City as the control group, to evaluate changes in public bicycle and metro usage before and after the policy implementation in Taipei. The empirical results show that Taipei City's public bicycle ridership increased significantly by over 30% after the policy implementation, with significant positive effects across different time periods and station types. Non-holidays showed higher increases than holidays at 34.20% versus 32.83%, with evening peak hours during non-holidays showing the most significant increase at 40.11%. Stations near metro stops and schools also demonstrated higher usage increases at 35.63% and 39.81% respectively. In contrast, metro usage was not significantly affected, indicating no clear substitutive or complementary relationship between metro and public bicycles. Finally, the study estimates benefits of reduced fuel expenses and time savings resulting from the policy, along with the associated subsidy costs. The resulting benefit-cost ratio is approximately 1.27, indicating that the policy effectively enhances social welfare. | en |
| dc.description.provenance | Submitted by admin ntu (admin@lib.ntu.edu.tw) on 2025-07-30T16:16:11Z No. of bitstreams: 0 | en |
| dc.description.provenance | Made available in DSpace on 2025-07-30T16:16:11Z (GMT). No. of bitstreams: 0 | en |
| dc.description.tableofcontents | 口試委員審定書 i
致謝 ii 中文摘要 iii Abstract iv 目次 v 圖次 vii 表次 viii 第一章 緒論 1 第一節 研究動機與背景 1 第二節 研究目的與內容 4 第二章 文獻回顧 6 第一節 臺北市與新北市公共自行車背景 6 第二節 差異中之差異法相關文獻 9 第三章 資料來源與處理 12 第一節 YouBike 2.0 租借紀錄資料 12 第二節 臺北捷運與新北捷運搭乘紀錄資料 16 第三節 天氣資料 17 第四章 研究方法與實證模型 19 第一節 圖形化趨勢分析 19 第二節 差異中之差異法 21 第三節 事件研究法 23 第五章 實證分析與結果 24 第一節 敘述統計 24 第二節 實證結果 29 第六章 結論與限制 44 第一節 結論 44 第二節 研究限制 45 參考資料 47 附錄 53 | - |
| dc.language.iso | zh_TW | - |
| dc.subject | 公共自行車 | zh_TW |
| dc.subject | 差異中之差異法 | zh_TW |
| dc.subject | 事件研究法 | zh_TW |
| dc.subject | 大眾運輸 | zh_TW |
| dc.subject | Public Transportation | en |
| dc.subject | Public Bicycle | en |
| dc.subject | Difference-in-Differences | en |
| dc.subject | Event Study | en |
| dc.title | 臺北市公共自行車補貼政策對大眾運輸使用量的影響 | zh_TW |
| dc.title | The Impact of Taipei City’s Public Bicycle Subsidy Policy on Public Transportation Usage | en |
| dc.type | Thesis | - |
| dc.date.schoolyear | 113-2 | - |
| dc.description.degree | 碩士 | - |
| dc.contributor.oralexamcommittee | 楊豐安;魏敏芳;黃柏鈞 | zh_TW |
| dc.contributor.oralexamcommittee | Feng-An Yang;Min-Fang Wei;Po-Chun Huang | en |
| dc.subject.keyword | 公共自行車,差異中之差異法,事件研究法,大眾運輸, | zh_TW |
| dc.subject.keyword | Public Bicycle,Difference-in-Differences,Event Study,Public Transportation, | en |
| dc.relation.page | 58 | - |
| dc.identifier.doi | 10.6342/NTU202502169 | - |
| dc.rights.note | 同意授權(全球公開) | - |
| dc.date.accepted | 2025-07-26 | - |
| dc.contributor.author-college | 生物資源暨農學院 | - |
| dc.contributor.author-dept | 農業經濟學系 | - |
| dc.date.embargo-lift | 2025-07-31 | - |
| Appears in Collections: | 農業經濟學系 | |
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| ntu-113-2.pdf | 945.23 kB | Adobe PDF | View/Open |
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