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題名:以大眾運輸導向發展建構健康社區步行友善環境評估指標與規劃模式
作者:謝翊楷
作者(外文):Hsieh, Yi-Kai
校院名稱:中國文化大學
系所名稱:建築及都市設計學系
指導教授:李家儂
學位類別:博士
出版日期:2019
主題關鍵詞:大眾運輸導向發展健康社區步行友善環境空間型構法則Transit-Oriented DevelopmentHealthy CommunitysWalking-Friendly EnvironmentSpace Syntax
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本研究以健康社區與TOD之理念作為核心架構,並結合Space Syntax之理論基礎,強調以「步行」為主的都市設計做為發展框架,據以提供一套具理論基礎且可操作於TOD區的評估規劃模式。從台灣都市環境與TOD發展現況觀察,發現對於TOD規劃僅能以距離場站的遠近作為主要衡量基準之原因,乃在於缺乏考量各個TOD區的環境差異性與條件適地性,其各區在地條件與環境現況有所不同,尤其區內步行路網結構的連結關係更存在差異,進而將TOD區分為兩種型態,即TOD-W(步行)與TOD-P(私人運具)兩種不同次模式,並據以提出TOD之6D元素,即新增考量「大眾運輸範圍內之差異性與適地性(Difference)」,以此形塑TOD規劃理念之嶄新的風貌。本文主要分為三大主軸:(一)應用模糊德爾菲法(FDM)分析建立出14項TOD健康步行友善環境評估指標之體系,並結合灰色理論之概念,擬以灰色分析網絡程序法(Grey-ANP)獲得灰色權重,以及提出「彈性決策」方式;(二)續以運用Space Syntax進行案例地區步行路網量化分析,藉由突破對於步行研究的限制,使軸線與拓撲轉換可妥善考量步行空間,亦使地區便捷值(R3值)之結果更為真實反映路網狀況;(三)最後導入TOD健康步行友善環境指標系統,進一步改良地區便捷值,以建構TOD區空間再結構之規劃模式,並透過捷運府中站、板橋站、新埔站、江子翠站等作為實例研究,繼而分析出TOD步行環境之友善值(Rw值),並從TOD之6D規劃理念的觀點,加以檢視TOD區內健康步行友善環境發展現況及進行綜合討論。
This study takes the concept of healthy community and Transit-Oriented Development (TOD) as the core structure, and the theory of Space Syntax is combined to emphasize the “pedestrian walking” based design as the framework for urban development, by which an evaluation model with theoretical basis and applicable to TOD areas for urban planning is suggested. An observation of Taiwan's current urban environment and TOD development shows that the TOD planning is solely based on the distance from the station because of the lack of consideration of the environmental differentiation and local applicability among the TOD areas, where the connectivity of the pedestrian walking networks are so different that and the TOD areas are divided into two categories, namely, TOD-W (walking) and TOD-P (private vehicle), and thus the 6D elements of TOD are brought up by adding a new consideration of "differentiation and local applicability within the reach of mass transit" and thereby a brand new idea of TOD planning comes into shape. This paper comes with three main proceedings. The first is applying the Fuzzy Delphi Method (FDM) to analyze and establish 14 indicators for assessment of friendliness in a TOD healthy walking environment, and then combining the concept of grey theory with the Grey-ANP method to obtain the gray weights by which a "flexible decision-making" approach is proposed. The second is using Space Syntax for quantitative analysis of the pedestrian walking networks in the studied TOD areas, and then breaking the constraints on the studies of pedestrian walking so that the walking space in the conversion between the walking axes and topology can be properly taken into account, and therefore the resulted local integration values can more truly reflect the status of the walking network. Finally, an indicator system is introduced to evaluate friendliness of the TOD healthy walking environment for further improvement of the local integration, so as to construct a planning model for space restructuring of the TOD areas. Case studies of the MRT Yunfuzhong Station, Banqiao Station, Xinpu Station, Jiangzicui Station are given to obtain the values of friendliness in the TOD walking environment, and then from the perspective of TOD’s 6D planning concept, the current status of developing friendly healthy walking environment in the TOD areas are examined and discussed.
1. Abraham, T., Fallon, P. J. (1997). Caring for the community: development of the advanced practice nurse role. Clinical Nurse Specialist, 11: 224-30.
2. Anderson, P. (1999). Perspective: Complexity theory and organization science. Organization Science, 10 (3): 216-32.
3. Alex, Lo. (2010). China's response to climate change. Environmental Science & Technology, 44(15): 5689–5690.
4. Arthur, W. B. (2006). Out-of-equilibrium economics and agent-based modeling. In Handbook of computational economics, 2: 1551-64.
5. Anna Rose. (2011). City Scans: Measuring the effects of urban networks. Harvard GSD.
6. Bernick, M. and Cervero, R. (1997). The Transit Village in the 21st Century, New York: The McGraw Hill.
7. Burchell, R. W., Shad, N. A., Listokin, D., Phillips, H., Downs, A., Seskin, S., Davis, J. S., Moore, T., Helton, D., Gall, M. (1998). TCRP 39: The Costs of Sprawl—Revisited, Washington, DC: Transportation Research Board.
8. Brown, S. L., Eisenhardt, K. M. (1998). Competing on the edge. Harvard Business School Press: New York.
9. Benfield, F. K., Raimi, M., Chen, D. D. T. (1999). Once There Were Greenfields: How Urban Sprawl is Undermining America’s Environment, Economic and Social Fabric. The Natural Resources Defense Council and the Surface Transportation Policy Project.
10. Boarnet, M. G., and Haughwout, A. F. (2000). Do Highways Matter? Evidence and Policy Implications of Highways’ Influence on Metropolitan Development, Washington, D. C.: The Brookings Institution Center on Urban and Metropolitan Policy and the Great American Station Foundation.
11. Buckwalter, D. W. (2001). Complex topology in the highway network of Hungary, 1990 and 1998. Journal of Transport Geography, 9(2): 125-135.
12. Belzer, D. and Aulter, G. (2002). Transit-oriented development: moving from Rhetoric to reality. Washington, D.C.: The Brookings Institution Center on Urban and Metropolitan Policy and The Great American Station Fundation.
13. Baum, F., Palmer, C. (2002). Opportunity structures': urban landscape, social capital and health promotion in Australia. Health Promotion International, 17: 351-61.
14. Bhatta, S. D. and Drennan, M. P. (2003). The Economic Benefits of Public Investment in Transportation: A Review of Recent Literature, Journal of Planning Education and Research, 22(3): 288-296.
15. Batty, M. (2005). Cities and complexity: Understanding cities with cellular automata, agent-based modeling, and fractals. London: MIT Press.
16. Briassoulis, H. (2008). Land-use policy and planning, theorizing, and modeling: Lost in translation, found in complexity? Environment and Planning B: Planning and Design, 35 (1): 16-33.
17. Barnett, K., Farber, M. (2009). Topology of configuration space of two particles on a graph. I, Algebr and Geom, 9: 593 - 624.
18. Cerin, E., Conway, T. L., Cain, K. L., Kerr, J., Bourdeaudhuij, I. D., Owen, N., Reis, R. S., Sarmiento, O. L., Hinckson, E. A., Salvo, D. (2013). Sharing good NEWS across the world: developing comparable scores across 12 countries for the Neighborhood Environment Walkability Scale (NEWS). BMC Public Health, 13 (1): 309.
19. Cervero, R. and Kockelman, K. (1997). Travel demand and the 3Ds: density, diversity, and design. Transportation Research, D, 2 (3): 199–219.
20. Cohen, B. (1997). The Edge of Chaos: Financial Booms, Bubbles, Crashes and Chaos, University of California.
21. Corbett, J. and Zykofsky, P. (1999). A Policymaker’s Guide to Transit-Oriented Development. California: the Center for Livable Communities, Local Government Commission.
22. Cervero, R. (2002). Transit-Oriented Development and Joint Development in the United States: A Literature Review, Washington, D.C.: Transportation Research Board.
23. Cervero, R. and Landis, J. (1992). Suburbanization of jobs and the Jobs and the Journey to Work: A Submarket Analysis of Commuting in the San Francisco Bay Area, Journal of advanced transportation, 23(3): 275-297.
24. Calthorpe, P. (1993). The Next American Metropolis: Ecology, Community, and the American Dream. New York: Princeton Architectural Press.
25. Cervero, R. (1993). Ridership Impact of Transit Focused Development in California. Working Paper, NO.176. Berkeley, CA: the University of California Transportation Center.
26. Curtis, D. C., (2002). Evaluation of community health assessment in Kansas. Journal of Public Health Management & Practice, 8: 20-5.
27. Cibula, D.A., Novick, L. f., B. Morrow C., Suphen, S. M. (2003). Community health assessment. American Journal of Preventive Medicine, 24(4S): 118-23.
28. Cervero, R. (2004). Transit Oriented Development in America: Contemporary Practices, Impacts, and Policy 41 Direction, International Planning Symposium on Incentives, Regulations, and Plans. Netherlands: University of Maryland.
29. Cervero, R., Murphy, S., Ferrell, C., Goguts, N., Tsai, Y.-H., Arrington, G. B., Borski, J., Smith-Heimer, J., Golem, R., Peninger, P., Nakajima, E., Chui, E., Dunphy, R., Myers, M., Mckay, S., and Witenstein, N. (2004). TCRP 102: Transit-Oriented Development in the United States: Experiences, Challenges and Prospective, Washington, D.C.: Transportation Research Board.
30. Cho, S., Chen, Z., Yen, S. T., Eastwood, D. B. (2006). The effects of urban sprawl on body mass index: where people live does matter. Proceedings of the 52nd Annual ACCI Conference, March 15–18, Baltimore, MD.
31. Carlton, I. (2007). Histories of Transit-Oriented Development: Perspectives on the Development of the TOD Concept, CA: Institute of Urban and Regional Development, University of California, Berkeley.
32. Cervero, R., Sarmiento, O. L., Jacoby, E., Gomez, L.F., and Neiman, A. (2009). Influences of Built Environments on Walking and Cycling: Lessons from Bogotá. International Journal of Sustainable Transportation, 3(4): 203-226.
33. Carlsson, G. (2009). Topology and Data. Bulletin of the American Mathematical Society, 46(2): 255-308.
34. Chirapiwat, T. (2005). Street configurations and commercial and mixed-use land-use patterns: a morphological study of the northeastern region of Bangkok to evaluate recent transportation and land-use plans. Michigan: University of Michigan (unpublished PhD thesis).
35. Ching, W. K. and Ng, M. K. (2006). Markov Chains: Models, Algorithms and Applications, Berlin: Springer.
36. Cervero, R. and J. Murakami. (2008). Rail and Property Development: A Model of Sustainable Transit Finance and Urbanism. Research Report, UC Berkeley Center for Future Urban Transport: A Volvo Center of Excellence.
37. Dannenberg, A., Jackson, R., Frumkin, H., Schieber, R., Pratt, M., Kochtizky, C., Tilson, H. (2003). The impact of community design and land-use choices on public health: a scientific research agenda. American Journal of Public Health, 93: 1500–1508.
38. Dalkey, N., & Helmer, O. (1963). An experimental application of the Delphi method to the use of experts. Management Science, 9(3): 458-467.
39. Dalkey, N. (1969). An experimental study of group opinion: The Delphi method. Futures, 1(5): 408-426.
40. Dalvi, M. Q. and Martin, K. M. (1976). The Measurement of Accessibility: Some Preliminary Results. Transportation, 5: 17-42.
41. Deng, J. L. (1982). Control problems of grey systems. Systems & Control Letters, 1(5): 288‐294.
42. Dittmar, H. and Ohland G., eds. (2004). The new Transit Town: Best Practices in Transit-Oriented Development, Washington, D.C.: Island Press.
43. Doyle, S., Kelly-Schwartz, A., Schlossberg, M., Stockard, J. (2006). Active community environments and health: the relationship of walkable and safe communities to individual health. Journal of American Planning Association, 72: 19 –31.
44. Euler, L. (1736). Solutio problematis ad geometriam situs pertinentis. Comment. Acad. Sci. U. Petrop, 8: 128–40.
45. Edel, M. (1981). Capitalism Accumulation and the Explanation of Urban Phenomena. PP. 19-44 in Urbanization and Urban Planning in Capitalist Society, edited by Dear, M.and Scotts, A. J., New York: Methuen.
46. Ewing, R. H., Schmid, T., Killingsworth, R., Zlot, A., & Raudenbush, S. (2003). Relationship between urban sprawl and physical activity, obesity, and morbidity. American Journal of Health Promotion, 18(1): 47–57.
47. Ewing, R., K. Bartholomew, S. Winkelman, J. Walters, D. Chen, B. McCann and D. Goldberg. (2007). Growing cooler: the evidence on urban development and climate change. Chicago, IL: Urban Land Institute.
48. Enström, R., Netzell, O. (2008). Can Space Syntax Help Us in Understanding the Intraurban Office Rent Pattern? Accessibility and Rents in Downtown Stockholm. Real Estate Finan Econ, 36: 289-305.
49. Ewing, R., and Cervero, R. (2001). Travel and the built environment. Transportation Research Record, 1780: 87–114.
50. Ewing, R., and Cervero, R. (2010). Travel and the Built Environment: A Meta-Analysis. Journal of the American Planning Association, 76(3): 265-294.
51. Freilich, Robert H. (1998). The Land-Use Implication of Transit-Oriented Development: Controlling the Demand Side of Transportation Congestion and Urban Sprawl. The Urban Lawyer, 30(3): 47-572.
52. Frank, L. D., Engelke, P. O., Schmid, T. L. (2003). Health and Community Design: The Impact of the Built Environment on Physical Activity Island Press, Washington, DC.
53. Frank, L. D., Schmid, T. L., Sallis, J. F., Chapman, J. & Saelens, B. E. (2010). Linking objectively measured physical activity with objectively measured urban form: findings from SMARTRAQ. American Journal of Preventive Medicine, 28: 117-125.
54. Frumkin, H., Wendel, A., Abrams, R. F., Malizia E. (2011). Chapter 1: an introduction to healthy places A. Dannenberg, H. Frumkin, R. Jackson (Eds.), Making Healthy Places Designing and Building for Heath, Well-being, and Sustainability, Island Press, Washington DC, USA.
55. Gibson, J. J. (1979). The ecological approach to visual perception. Boston: Houghton Mifflin.
56. Gregory, B. (2015). Member Spotlight with Bert Gregory: A Focus on Health is Transforming the Design Industry, http://uli.org/centers-initiatives/member-spotlight-bert-gregory-focus-health-transforming-industry/.
57. Gehl, J. (2011). Life between buildings: Using public space. Washington, USA: Island Press.
58. Giannopoulou, M., Y. Roukounis, et al. (2012). "Traffic Network and the Urban Environment: An Adapted Space Syntax Approach." Procedia - Social and Behavioral Sciences 48(0): 1887-1896.
59. Giles-Corti, B., Vernez-Moudon, A., Reis, R., Turrell, G., Dannenberg, A. L., Badland, H., Foster, S., Lowe, M., Sallis, J. F., Stevenson, M., Owen, N. (2016). City planning and population health: a global challenge. The Lancet, 388(10062): 2912-2924.
60. Gloria, S. C., Charlotte, C., Sergio, C., Helena, C. (2018). Graphical approach to assess urban quality: Mapping walkability based on the TOD-standard. Cities, 76: 58–71.
61. Harvey, R. O. and W. A. V. Clark. (1971). The nature and economics of urban sprawl. In Internal Structure of the City, ed. L. S. Bourne. New York: Oxford University Press. 475-482.
62. Hillier, B., Penn, A., Hanson, J., Grajewski, T., and Xu, J. (1993). Natural movement: Configuration and attraction in urban pedestrian movement, Environment and Planning B, 20(1): 29-66.
63. Holtzclaw, J., Clear, R., Dittmar, H., Goldstein, D., Haas, P. (2002). Location Efficiency: Neighborhood and Socio-Economic Characteristics Determine Auto Ownership and Use - Studies in Chicago, Los Angeles and San Francisco. Transportation Planning and Technology, 25(1): 1-27.
64. Hillier, B. (1996). Space is the machine: A configurational theory of architecture. Cambridge University Press.
65. Handy, S. (1996). Under Standing the Link between Urban Form and Nonwork Travel Behavior. Journal of Planning Education and Research, 15 (3): 183-198.
66. Hillier, B. (1999). The hidden geometry of the deformed grids: or, why space syntax works, when it looks as though it’s shouldn’t. Environment and Planning B: planning and Design, 26: 169-191.
67. Hillier, B. and Shu, S. (2000). Crime and urban layout: the need for evidence. In: Ballintyne, K., pease, k. and Mclaren, V. (eds.) Secure foundations: Key issues in crime prevention, crime reduction and community safety. London: Institute for Public Policy Research.
68. Handy, S. (2005). Smart Growth and the Transportation-Land Use Connection: What Does the Research Tell Us? International Regional Science Review, 28 (2): 146-167.
69. Hillier, B., & Iida, S. (2005). Network effects and psychological effects in urban movement. In A. Cohn & D. Mark (Eds.), Spatial information theory lecture notes in computer science 3603 (pp. 475–490). Springer Verlag.
70. Hillier, B., Turner, A., Yang, T., & Park, H. (2007). Metric and topo-geometric properties of urban street networks: some convergences, divergences and new results. Proceedings of 6th Symposium of Space Syntax, Istanbul, Turkey.
71. Hillier, B., Karimi, K., Stonor, T., Using Space Syntax to Regenerate the Historic Centre of Jeddah In: (Proceedings). (2008). UIA World Congress, Tools for Governance.
72. Hillier, B. (2008). An evidence based approach to crime and urban design. Bartlett School of Graduate Studies University College London.
73. Hancock T., Duhl L. (1986). Healthy cities:Promoting healthy in the urban content. Copenhagen:WHO Europe.
74. Huang, G. H. and Moore, R. D. (1993). Grey linear programming, its solving approach and its application. International Journal of Systems Science, 24(1): 159-172.
75. Hoekstra, A. G., Kroc, J., Sloot, P. M. A., eds. (2010). Simulating complex systems by cellular automata. Berlin Heidelberg: Springer-Verlag.
76. Holland, J. H. (2012). Signals and boundaries: Building blocks for complex adaptive systems. Cambridge, MA: The MIT Press.
77. Ingvardson, J. B., Nielsen, O. A. (2018). How urban density, network topology and socio-economy influence public transport ridership: Empirical evidence from 48 European metropolitan areas. Journal of Transport Geography, 72: 50-63.
78. Jiang, B., Claramunt, C. (2002). Integration of Space Syntax into GIS: new perspectives for urban morphology. Transactions in GIS, 6(3):295-309.
79. Jun, H. J., Hur, M. (2015). The relationship between walkability and neighborhood social environment: The importance of physical and perceived walkability. Applied Geography, 62: 115-124.
80. Jane Jacobs (1961). The Death and Life of Great American Cities, Random House, New York.
81. Johnson, M. P. (2001). Environmental Impacts of Urban Sprawl: A Survey of the Literature and Proposed Research Agenda. Environment and planning A, 33: 717-735.
82. Jun, M. J., Kim, J. I. (2012). The effects of high-density suburban development on commuter mode choices in Seoul, Korea. Cities, (0).
83. Kawachi, I. (1999). Social Capital and Community Effects on Population and Individual Health. The New York Academy of Sciences, 896(1): 120-130.
84. Kegler MC, Twiss JM, Look V. 2000. Assessing community change at multiple levels: the genesis of an evaluation framework for the California Healthy Cities Project. Health Education & Behavior. 27: 760-79.
85. Kushner, J. A. (2004). The Post-Automobile City: Legal Mechanisms to Establish the Pedestrian-Friendly City. North Carolina: Carolina Academic Press.
86. Kelly-Schwartz, A., J. Stockard, S. Doyle, M. Schlossberg. (2004). Is sprawl unhealthy? A multi-level analysis of the relationship of metropolitan sprawl to the health of individuals. J Plann Ed Res, 24: 184–96.
87. Kaufmann, V. (2011). The individual motilities that make the city. Rethinking the city: Urban dynamics and mobility, Lausanne, Switzerland: EPFL Press.
88. Kumara, P.P., Ravi Sekhar, Ch., Paridaa, M. (2018). Residential dissonance in TOD neighborhoods. Journal of Transport Geography, 72: 166-177.
89. Listing, J. B. (1848). Vorstudien zur Topologie, Göttingen: Vandenhoeck und Ruprecht.
90. Laverack, G., Labonte, R. (2000). A planning framework for community empowerment goals within health promotion. Health Policy & Planning, 15: 255-62.
91. Lee, B. H. and Jung, W. S. (2018). Analysis on the urban street network of Korea: Connections between topology and meta-information. Physica A: Statistical Mechanics and its Applications, 497(1): 15-25.
92. Lopez, R. (2004). Urban sprawl and risk for being overweight or obese. American Journal of Public Health, 94: 1574 –1579.
93. Levy, D. (1994). Chaos Theory and Strategy: Theory, Application, and Managerial Implications. Strategic Management Journal, 15: 167-178.
94. Leyden, K. (2003). Social capital and the built environment: The importance of walkable neighborhoods. American Journal of Public Health, 93(9): 1546–1551.
95. Litman, T. (2006). Evaluating Transportation Land Use Impacts. Canada, Victoria Transport Policy Institute.
96. Lin, J.J., Shin, T.Y. (2008). Does Transit-Oriented Development Affect Metro Ridership? Evidence from Taipei, Taiwan. Transportation Research Record: Journal of the Transportation Research Board, 2063: 149-158.
97. Lin, J. J., and Jen, Y. C., (2009), Household Attributes in a Transit-Oriented Development: Evidence from Taipei. Journal of Public Transportation, 12(2): 105-125.
98. Muraco W. A. (1972). Intraurban Accessibility. Economic Geography, 48: 388-405.
99. Mac Dougall C, Cooke R, Owen N, Willson K, Bauman A. (1997). Relating physical activity to health status, social connections and community facilities. [see comment]. Australian & New Zealand Journal of Public Health. 21: 631-7.
100. Minkler M., Wallerstein N. (1999). Improving health through community organization and community building-A health education perspective. In Community organization & community building for health, ed. M Minkler, pp. 30-52. New Jersey: Rutgers Univeristy Press.
101. Mitchell, J. G. (2001). Urban sprawl: the American dream. National Geographic, 200(1): 48-73.
102. Moudon, A.V., Lee, C., Cheadle, A.D., Collier, C.W., Johnson, D., Schmid, T.L. and Weather, R.D. (2005). Cycling and the Built Environment, a US Perspective. Transportation Research Part D: Transport and Environment, 10: 245-2
103. Marwan, A.-A. R. R. (2012). Modeling Pedestrian Walking Speeds on Sidewalks. Urban planning and Development, 133(3): 211-219.
104. Montgomery, C. (2013). Happy city: Transforming our lives through urban design. New York, USA: Farrar, Straus and Giroux.
105. Macfarlane, R. G., Wood, L. P., Campbell, M. E. (2014). Healthy Toronto by Design: Promoting a healthier built environment. US National Library of Medicine National Institutes of Health.
106. Mezoued, A. (2016). L'in-adhérence spatiale du tramway d'Alger à l'échelle locale. In M. Srir (Ed.). Dynamiques urbaines à Alger: La (re)fabrication de la ville en questions (pp. 247–265). Paris, France: L'Harmattan.
107. Newman, P., Kenworthy, J. R. (1999a). The Land Use- Transport Connection: An Overview. Land Use Policy, 13(1): 1-22.
108. Newman, P. and Kenworthy, J R. (1999b). Sustainability and Cities: Overcoming Automobile Dependence. Washington, D.C.: Island Press.
109. Niles, J. and Nelson, D. (1999). Measuring the Success of Transit-Oriented Development: Retail Market Dynamics and Other Key Determinants. Paper presented at the National Planning Conference, Seattle, Washington, April 24 – 28.
110. Newman, P., Kenworthy, J. R. (2000). Sustainable of urban form: The big picture, in Achieving Sustainable Urban Form, in K. Williams, E. Burton, M. Jenks (ed.), N. Y: E & FN Spon, 109-120.
111. Newman, P., Kenworthy, J. R. (2006). Urban Design to Reduce Automobile Dependence. Opolis, 2(1): 35-52.
112. Newman, P., Kenworthy, J. R. (2007). Greening Urban Transportation, pp.66-85 in State of the World: Our Urban Future, edited by O’Meara, M., Washington, D.C.: Norton Publishers.
113. Nenci, A. Integrating space syntax in wayfinding analysis.In: C. Holscher, R. onroy Dalton & A. Turner (Eds.), Space syntax and spatial cognition. Bremen: Univesitat Bremen, 2007, pp. 181-184.
114. Ovenden, Mark. (2007). Transit Maps of the World, Penguin Books Ltd, London.
115. Olaru, D., B. Smith, et al. (2011). Residential location and transit-oriented development in a new rail corridor. Transportation Research Part A: Policy and Practice, 45(3): 219-237.
116. Petersen, A. (1996). The ‘healthy’ city, expertise, and the regulation of space. Health & Place, 2(3): 157–165.
117. Penn, A., Hillier, B., Banister, D., and Xu, J. (1998). Configurational modelling of urban movement network. Environment and Planning B: Planning and Design, 25(1): 59-84.
118. Parcerisa, J., Rubert de Ventós, M. (2001). Metro: Galàxies metropolitanes – Galaxias metropolitanas - Metropolitan galaxies. Barcelona, Spain: Edicions UPC.
119. Peponis, J., Wineman, J. (2002). The spatial structure of environment and behavior: Space syntax. Handbook of Environmental Psychology, 271-292.
120. Pucher, J., Dijkstra, L. (2003). Promoting safe walking and cycling to improve public health: Lessons from The Netherlands and Germany. American Journal of Public Health, 93(9): 1509–1516.
121. Ryan, S. (1999). Property Values and Transportation Facilities: Finding the Transportation-Land Use Connection. Journal of Planning Literature, 13(4): 412-427.
122. Rafael, A. R. (2000). Watson's philosophy, science, and theory of human caring as a conceptual framework for guiding community health nursing practice. Advances in Nursing Science, 23: 34-49.
123. Renne, J. L., Wells, J. S., and Bloustein, E. J.(2005). Transit-Oriented Development: Developing a Strategy to Measure Success, National Cooperative Highway Research Project 20-65(5). Washington, D.C.: Transportation Research Board.
124. Rahul, T. M., Verma, A. (2013). Economic impact of non-motorized transportation in Indian cities. Research in Transportation Economics, 38(1): 22-34.
125. Song, Y., Knaap, G. (2004). Measuring Urban Form: Is Portland Winning the War on Sprawl? Journal of the American Planning Association, 70(2): 210-225.
126. Saaty, T. L. (1980). The Analytic Hierarchy Process, New York: McGraw-Hill.
127. Saaty, T. L. (1996). Decision Making with Dependence and Feedback: The Analytic Network Process, Pittsburgh: RWS Publications.
128. Srinivasan, S., O’Fallon, L., Dearry, A. (2003). Creating healthy communities, healthy homes, healthy people: initiating a research agenda on the built environment and public health. American Journal of Public Health, 93: 1446–1450.
129. Saaty, T. L. (2005). Theory and applications of the analytic network process, Pittsburgh: RWS Publications.
130. Southworth, M. (2005). Designing the walkable city. Journal of Urban Planning and Development, 131(4): 246–257.
131. Sung, H., Oh, J. T. (2011). Transit-oriented development in a high-density city: Identifying its association with transit ridership in Seoul, Korea. Cities, 28(1): 70-82.
132. Sallis, J. F., Bull, F., Burdett, R., Frank, L. D., Griffiths, P., Giles-Corti, B., Stevenson, M. (2016). Use of science to guide city planning policy and practice: how to achieve healthy and sustainable future cities. The Lancet, 388(10062): 2936-2947.
133. Spadon, G., Gimenes, G., Rodrigues-Jr, J. F. (2017). Identifying Urban Inconsistencies via Street Networks. Procedia Computer Science, 108: 18-27.
134. Tim Stonor. (2010). Valuing the public realm: The importance of spatial networks. city of cambridge community development department.
135. TriMet. (2011). Tri-County Metropolitan Transportation District of Oregon, TriMet http://ctod.org/portal/Portland-Metros-TOD-Strategic-Plan.
136. Tsiompras, A. B., Photis, Y. N. (2017). What matters when it comes to “Walk and the city”? Defining a weighted GIS-based walkability index. Transportation Research Procedia, 24: 523-530.
137. The Energy Foundation, (2002). Urban Automobile Pollution Control and Sustainable Transportation System. San Francisco, CA.
138. Turner, A. (2007). From axial to road-centre lines: a new representation for space syntax anda new model of route choice for transport network analysis. Environment and PlanningB: Planning and Design, 34: 539-555.
139. The Times of India. ‘80% of world’s population will live in cities by 2050’. TNN | Feb 22, 2015, 02.23PM, IST.
140. Van Lenthe, F. J., Brug, J., Mackenbach JP. (2005). Neighbourhood inequalities in physical inactivity: the role of neighbourhood attractiveness, proximity to local facilities and safety in the Netherlands. US National Library of Medicine National Institutes of Health, 60(4): 763-75.
141. Ventura, F. X. (2016). Espacio y movilidad: la arquitectura de los desplazamientos. Madrid, Spain: Los Libros de la Catarata.
142. Waldrop, M. M. (1992). Complexity: The Emerging Science at the Edge of Order and Chaos, Reed Business Information, Inc.
143. White, Attorney, Freilich, Leitner and Carlisle. (1999). The Zoning and Real Estate Implications of Transit-Oriented Development. Transit Cooperative Research Program, Transportation Research Board, National Research Council, National Academy Press, Washington: D. C.
144. Wolfram, S. (2002). A new kind of science. Champaign, Illinois: Wolfram Media.
145. Wey, W. M., Chiu, Y. H., (2012). Assessing the walkability of pedestrian environment under the transit-oriented development. Habitat International (0).
146. Wey, W. M., Chiu, Y. H. (2013). Assessing the walkability of pedestrian environment under the transit-oriented development. Habitat International, 38: 106-118.
147. Yang, T. (2005). Impacts of Large Scale Development: Does Space Make a Difference? Proceedings of the Fifth Space Syntax Symposium,Holland.
148.Zuniga-Teran, A. A., Orr, B. J., Gimblett, R. H., Chalfoun, H. V., Marsh, . E., Guertin, D. P., Going, S. B. (2017). Designing healthy communities: Testing the walkability model. Frontiers of Architectural Research, 6(1): 63-73.
149. Zhang, X., Bayulken, B., Skitmore, M., Lu, M., Huisingh, H. (2018). Sustainable urban transformations towards smarter, healthier cities: Theories, agendas and pathway. Journal of Cleaner Production, 173(1): 1-10.
150. Zaki, S. A., Abdullah, J. (2012). Layout Design and Its Effects on Burglary. Procedia - Social and Behavioral Sciences, 42: 329-339.
151. 王文錤(2004),博物館空間組構邏輯探討─以國立自然科學博物館與國立科學工藝博物館為例,逢甲大學建築與都市計畫所碩士論文,民國93年。
152. 白仁德、劉人華(2014),大眾運輸導向建成環境特性對捷運運量影響之研究-以臺北捷運為實證對象,建築與規劃學報,第15卷,第二/三期,第111-128頁。
153. 李家儂、羅健文(2006),大眾運輸導向發展設計概念中步行可及性與大眾捷運系統旅次關係之初探,都市交通,第20卷,第4期,第頁1-14。
154. 李家儂、賴宗裕(2007),台北都會區大眾運輸導向發展目標體系與策略之建構,地理學報,第48 期,第19-42頁。
155. 李婉菁(2008),台北市捷運對於沿線土地使用供給與需求之影響分析,國立政治大學地政研究所碩士論文,民國97年。
156. 李家儂(2008),健康、運輸與都市設計整合的規劃思潮,土地問題研究季刊,第7卷,第四期,第114-124頁。
157. 李家儂(2009),土地使用與交通運輸連結下的都市模式演變及其效益評估,國立政治大學地政研究所博士論文,民國98年。
158. 李家儂、賴宗裕(2009),交通運輸與土地使用連結下的都市模式演變-全球36個主要城市比較分析,都市與計劃,第36卷,第一期,第25-49頁。
159. 李家儂(2015),鄉村地區綠色運輸衡量指標之建構與評估:以宜蘭縣為例,都市與計劃,第42卷,第4期,第455-485頁。
160. 李家儂、謝翊楷(2015),以空間型構法則及步行導向理念檢視TOD 區內土地使用配置的合理性,運輸計劃季刊,第44卷,第一期,第1-24頁。
161. 李家儂、謝翊楷(2016),以階層線性模式探討TOD規劃效益對土地開發之影響,台灣土地研究,第十九卷,第一期,第1-38頁。
162. 杜雲龍(2000),大眾運輸導向之都市發展策略—以淡海新市鎮開發案為例,國立台北大學都市計劃研究所碩士論文,民國89年。
163. 林凱偉(2005),大學校園公共開放空間系統與活動行為之分析檢測模式研究—以逢甲、中興大學校園開放空間系統為例,逢甲大學建築所碩士論文,民國94年。
164. 林楨家、施亭伃(2007),大眾運輸導向發展之建成環境對捷運運量之影響-臺北捷運系統之實證研究,運輸計劃季刊,第36卷4期,第 451-476頁。
165. 林佳汶(2008),健康城市的建構與社區夥伴關係之研究-以台北市大安區與士林區為例,臺北大學公共行政暨政策學系學位論文,民國97年。
166. 林楨家、李家儂、馮正民、羅健文、蔡耀慶、陳志豪、李欣庭、黃運貴、黃新薰、朱珮芸(2011),都市計畫案綠色運輸衡量指標之研訂,臺北:交通部運輸研究所。
167. 吳綱立、林更岳、張智勝(2010),生態大眾運輸導向發展理念的車站地區土地使用評估架構與規劃策略之研究,中華民國住宅學會第19屆年會暨學術研討會。
168. 吳桂花(2013),社區老人自殺意念與負向生活經驗之探討,國立臺北護理健康大學護理研究所博士論文,民國92年。
169. 徐村和(1998),模糊德爾菲層級分析法,模糊系統學刊,第4卷,第59-72頁。
170. 許惠雯(2003),資訊應用對城市空間變遷之模擬研究─由空間可及性量測加以探討,立德管理學院地區發展及管理研究所碩士論文,民國92年。
171. 許智宏(2006),都市混合土地使用形態及其影響因素之研究—以台南市為例,國立成功大學都市計劃學系碩博士班碩士論文,民國95年。
172. 許世雨(2006),健康城市與健康社區之營造,中國地方自治,第59卷第8期,第11-30頁。
173. 郭瑜堅(2003),都市旅次成本之研究,國立臺灣大學土木工程學研究所碩士論文,民國92年。
174. 陳尚佑(2003),以空間型構理論探索台中市都市發展型態,逢甲大學建築與都市計畫所碩士論文,民國92年。
175. 陳志榮(2004),以空間型構理論應用於大學校園安全空間規劃之研究-以逢甲大學、靜宜大學為例,逢甲大學建築與都市計畫所碩士論文,民國93年。
176. 陳淑眉(2005),健康社區評估量表之建構,國立成功大學公共衛生研究所碩士論文,民國94年。
177. 陳玫秀(2005),都市地區居住環境品質對居民居住滿意度影響之研究,國立臺灣大學園藝學研究所碩士論文,民國94年。
178. 陳孟絹(2006),民眾對健康社區認知與態度之研究-以台中市為例,朝陽科技大學建築及都市設計研究所碩士論文,民國95年。
179. 陳成宏(2007),複雜理論對教育組織變革的解釋和啟示,教育研究與發展期刊,第三卷,第三期,第197-217頁。
180. 陳周翊(2007),都市街道組構型態與人潮、車流預測傾向探討-以空間型構數位分析為工具,東海大學建築學系碩士論文,民國96年。
181. 陳嘉茹(2008),以空間型構法則與階層線性模式探討交通路網結構對都市商業型態影響之研究,成功大學都市計畫研究所碩士論文,民國97年。
182. 陳麗婷(2012),應用空間型構法則於商業土地使用模型之建立,國立成功大學都市計劃學系碩博士班碩士論文,民國101年。
183. 曾健瑋(2010),以空間形構法則探討台南市街道路網結構變遷之研究,國立成功大學都市計劃學系碩博士班碩士論文,民國99年。
184. 曾傅宜(2011),公路路網結構與地方產業發展關聯之探討,國立成功大學都市計劃學系碩博士班碩士論文,民國100年。
185. 黃書偉(2008),土地混合使用空間型態量測與其影響因素之研究,成功大學都市計畫研究所博士論文,民國97年。
186. 黃宜鳳(2008),健康城市土地使用規劃模式之設計與應用,國立臺北大學都市計劃研究所碩士論文,民國97年。
187. 黃仲由、賴世剛(2015),都市發展理論之傳統與過渡趨向生物有機增長的思考方式,地理學報,第七十九期,第31-64頁。
188. 楊滔(2006),空間句法:從圖論的角度看中微觀城市形態,國外城市規劃,第21卷,第3期,第48-52頁。
189. 鄭滄濱(2001),軟體組織提升人員能力之成熟度模糊評估模式,國立台灣科技大學資訊管理系碩士論文,民國90年。
190. 鄭皓騰(2009),都會運輸網絡空間結構與都市觀光產業關連之探討,國立成功大學都市計劃學系碩博士班碩士論文,民國98年。
191. 蔡珮雯、賴宗裕(2001),捷運車站周圍土地使用規劃課題之探討-以木柵線中山國中站為例,第二屆2001 地政學術研討會。
192. 蔡敦浩、藍紫堂(2004),新興產業發展的複雜調適系統觀點-以台灣E-learning產業為例,管理學報,第21卷,第6期,第715-732頁。
193. 蔣於佑(2012),多重網絡之空間型構法則模型,國立成功大學都市計劃學系碩博士班碩士論文,民國101年。
194. 張學孔(2001),永續發展與綠色交通,經濟前瞻,第76期,第116-121頁。
195. 張學孔、錢學陶、杜雲龍(2000),大眾運輸導向之都市發展策略,捷運技術半年刊,第21卷,第1-16頁。
196. 張紘聞(2005),以型態分析理論解讀日本傳統數寄屋與現代民宅之空間組構特徵,逢甲大學建築所碩士論文,民國94年。
197. 張慧英(2007),中國傳統園林空間結構形式分析-以板橋林家花園為例,國立成功大學都市計劃學系碩博士班碩士論文,民國96年。
198. 潘雪玲(2007),應用空間型構理論於都市空間變遷之研究-以埔里鎮為例,逢甲大學建築與都市計畫所碩士論文,民國96年。
199. 劉依婷譯、Peter Calthorpe著(1999)。跨世紀都會藍圖-生態、社區、願景。台北:地景企業股份有限公司。
200. 賴世剛、韓昊英、吳次芳(2009),城市管理的學科設計—架構與內涵,公共事務評論,第10卷,第二期,第35-72頁。
201. 賴世剛(2010),透視複雜:台灣都市社會事件簿,台北:詹氏。
202. 鄧振源(2012),《多準則決策分析:方法與應用》,台北:鼎茂圖書。
203. 謝子良(1998),以Spacesyntax理論分析國內三大美術館空間組織之研究,東海大學建築研究所碩士論文,民國77年。
204. 謝翊楷(2016),都市規畫忘了老與窮,聯合新聞網:https://video.udn.com/news/610428。
205. 蕭宇軒(2010),影響大眾運輸使用因素之研究,國立成功大學,都市計劃學系碩博士班碩士論文,民國99年。
206. 羅健文、邱良忠(2015),應用模糊德爾菲法與分析網路程序法建立綠色運輸與遊憩路線規劃指標之研究,台灣土地研究,第18卷,第二期,第81-108頁。
207. 濮大威、張學孔(2004),台灣推動建置公車捷運系統之規劃與設計課題,論文發表於《2004國際華人運輸協會年會暨學術研討會論文集》,中華民國運輸學會,臺北,民國97年9月21日至22日。
208. 龍宗彥(2003),以型構與行為分析觀點探討都市公共開放空間系統之設計議題—以台北市信義計畫區為例,逢甲大學建築與都市計畫所碩士論文。

 
 
 
 
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