Proceedings of the Institution of Civil Engineers -

Urban Design and Planning

ISSN 1755-0793 | E-ISSN 1755-0807
Volume 174 Issue 3, August, 2021, pp. 102-115
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Afandizadeh Zargari S, Mirzahossein H and Yi-Chang C (2016) Quick link selection method by using pricing strategy based on user equilibrium for implementing an effective urban travel demand management. Promet-Traffic & Transportation 28(6): 605614. CrossrefGoogle Scholar
Alizadeh H, Shahmoradi B, Abdi MH and Rahimi A (2014) Developing transit-oriented strategies for Sanandaj City Center, Iran. International Journal of Transportation Engineering 1(3): 141149. Google Scholar
Bailey K, Grossardt T and Pride-Wells M (2007) Community design of a light rail transit-oriented development using casewise visual evaluation (CAVE). Socio-Economic Planning Sciences 41(3): 235254. CrossrefGoogle Scholar
Banai R (2005) Land resource sustainability for urban development: spatial decision support system prototype. Environmental Management 36(2): 282296. CrossrefGoogle Scholar
Barla P, Miranda-Moreno L and Lee-Gosselin M (2011) Urban travel CO2 emissions and land use: a case study for Quebec City. Transportation Research Part D: Transport and Environment 16(6): 423428. CrossrefGoogle Scholar
Behzadfar M and Zabihi M (2011) Transit-oriented development: plan making guideline in urban areas, Tehran, Iran. Bagh-e Nazar 18(8): 3949. Google Scholar
Calthorpe P (1993) The Next American Metropolis: Ecology, Community, and the American Dream. Princeton Architectural Press, New York, NY, USA. Google Scholar
Duncan M (2019) Would the replacement of park-and-ride facilities with transit-oriented development reduce vehicle kilometers traveled in an auto-oriented US region? Transport Policy 81: 293301. CrossrefGoogle Scholar
Ewing R, Tian G, Lyons T and Terzano K (2017) Trip and parking generation at transit-oriented developments: five US case studies. Landscape and Urban Planning 160: 6978. CrossrefGoogle Scholar
Goepel KD (2013) Implementing the analytic hierarchy process as a standard method for multi-criteria decision-making in corporate enterprises – a new AHP excel template with multiple inputs. Proceedings of the International Symposium on the Analytic Hierarchy Process, Creative Decisions Foundation Kuala Lumpur. CrossrefGoogle Scholar
Goepel KD (2018) Implementation of an online software tool for the analytic hierarchy process (AHP-OS). International Journal of the Analytic Hierarchy Process 10(3), CrossrefGoogle Scholar
Guerra E, Cervero R and Tischler D (2011) The half-mile circle: does it best represent transit station catchments?. Transportation Research Record Journal of the Transportation Research Board 2276(1): 101109. Google Scholar
Ibraeva A, Correia GHA, Silva C and Antunes AP (2020) Transit-oriented development: a review of research achievements and challenges. Transportation Research Part A: Policy and Practice 132: 110130. CrossrefGoogle Scholar
Kamruzzaman M, Wood L, Hine J, et al. (2014) Patterns of social capital associated with transit oriented development. Journal of Transport Geography 35: 144155. CrossrefGoogle Scholar
Kamruzzaman M, Shatu FM, Hine J and Turrell G (2015) Commuting mode choice in transit-oriented development: disentangling the effects of competitive neighbourhoods, travel attitudes, and self-selection. Transport Policy 42: 187196. CrossrefGoogle Scholar
Ke L, Furuya K and Luo S (2021) Case comparison of typical transit-oriented-development stations in Tokyo district in the context of sustainability: spatial visualization analysis based on FAHP and GIS. Sustainable Cities and Society 68: 102788, CrossrefGoogle Scholar
Lin JJ and Gau CC (2006) A TOD planning model to review the regulation of allowable development densities around subway stations. Land Use Policy 23(3): 353360. CrossrefGoogle Scholar
Lin JJ and Li CN (2008) A grey programming model for regional transit-oriented development planning. Papers in Regional Science 87(1): 119138. CrossrefGoogle Scholar
Loo BPY, Chen C and Chan ETH (2010) Rail-based transit-oriented development: lessons from New York city and Hong Kong. Landscape and Urban Planning 97(3): 202212. CrossrefGoogle Scholar
Ma X, Chen X, Li X, Ding C and Wang Y (2018) Sustainable station-level planning: an integrated transport and land use design model for transit-oriented development. Journal of Cleaner Production 170: 10521063. CrossrefGoogle Scholar
Mirzahossein H and Zargari SA (2018) A combined model of congestion toll pricing based on system optimization with minimum toll. Tehnički Vjesnik 25(4): 11621168. Google Scholar
Mirzahossein H, Rassafi AA, Sadeghi K and Safari F (2020) Overview of the literature on the transit-oriented development to investigate a practical solution for traffic congestion in Iran cities. International Journal of Transportation Engineering 7(4): 355372. Google Scholar
Mirzahossein H, Gholampour I, Sedghi M and Zhu L (2021) How realistic is static traffic assignment? Analyzing automatic number-plate recognition data and image processing of real-time traffic maps for investigation. Transportation Research Interdisciplinary Perspectives 9: 100320. CrossrefGoogle Scholar
Mohajeri N and Amin GR (2010) Railway station site selection using analytical hierarchy process and data envelopment analysis. Computers & Industrial Engineering 59(1): 107114. CrossrefGoogle Scholar
Motieyan H and Mesgari S (2017) Towards sustainable urban planning through transit-oriented development (a case study: Tehran). ISPRS International Journal of Geo-Information 6(12): 402417. CrossrefGoogle Scholar
Mu R and de Jong M (2012) Establishing the conditions for effective transit-oriented development in China: the case of Dalian. Journal of Transport Geography 24: 234249. CrossrefGoogle Scholar
Nasri A and Zhang L (2014) The analysis of transit-oriented development (TOD) in Washington, DC and Baltimore metropolitan areas. Transport Policy 32: 172179. CrossrefGoogle Scholar
Olaru D, Smith B and Taplin J (2011) Residential location and transit-oriented development in a new rail corridor. Transportation Research Part A: Policy and Practice 45(3): 219237. CrossrefGoogle Scholar
Pan H, Li J, Shen Q and Shi C (2017) What determines rail transit passenger volume? Implications for transit oriented development planning. Transportation Research Part D: Transport and Environment 57: 5263. CrossrefGoogle Scholar
Park K, Ewing R, Scheer BC and Tian G (2018) The impacts of built environment characteristics of rail station areas on household travel behavior. Cities 74: 277283. CrossrefGoogle Scholar
Ratner KA and Goetz AR (2013) The reshaping of land use and urban form in Denver through transit-oriented development. Cities (London, England) 30: 3146. CrossrefGoogle Scholar
Saaty TL (2000) Fundamentals of Decision Making and Priority Theory with the Analytic Hierarchy Process. RWS Publications, Pittsburgh, PA, USA. Google Scholar
Sahu A (2018) A methodology to modify land uses in a transit oriented development scenario. Journal of Environmental Management 213: 467477. CrossrefGoogle Scholar
Saw K, Katti B and Joshi G (2015) Literature review of traffic assignment: static and dynamic. International Journal of Transportation Engineering 2(4): 339347. Google Scholar
Staricco L and Vitale Brovarone E (2018) Promoting TOD through regional planning. A comparative analysis of two European approaches. Journal of Transport Geography 66: 4552. CrossrefGoogle Scholar
Strong KC, Ozbek ME, Sharma A and Akalp D (2017) Decision support framework for transit-oriented development projects. Transportation Research Record 2671(1): 5158. CrossrefGoogle Scholar
Sung H and Oh JT (2011) Transit-oriented development in a high-density city: identifying its association with transit ridership in Seoul, Korea. Cities (London, England) 28(1): 7082. CrossrefGoogle Scholar
Taherdoost H (2016) Validity and reliability of the research instrument; how to test the validation of a questionnaire/survey in a research. International Journal of Academic Research in Management 5(3): 2836. Google Scholar
Taherdoost H (2017) Decision making using the analytic hierarchy process (AHP); a step by step approach. International Journal of Economics and Management Systems 2, Google Scholar
Thomas R and Bertolini L (2015) Defining critical success factors in TOD implementation using rough set analysis. Journal of Transport and Land Use 10(1): 139154. Google Scholar
Thomas R, Pojani D, Lenferink S et al. (2018) Is transit-oriented development (TOD) an internationally transferable policy concept? Regional Studies 52(9): 12011213. CrossrefGoogle Scholar
van Lierop D, Maat K and El-Geneidy A (2017) Talking TOD: learning about transit-oriented development in the United States, Canada, and the Netherlands. Journal of Urbanism: International Research on Placemaking and Urban Sustainability 10(1): 4962. CrossrefGoogle Scholar
Wey WM (2015) Smart growth and transit-oriented development planning in site selection for a new metro transit station in Taipei, Taiwan. Habitat International 47: 158168. CrossrefGoogle Scholar
Wey WM, Zhang H and Chang YJ (2016) Alternative transit-oriented development evaluation in sustainable built environment planning. Habitat International 55: 109123. CrossrefGoogle Scholar
Xu T, Zhang M and Aditjandra PT (2016) The impact of urban rail transit on commercial property value: new evidence from Wuhan, China. Transportation Research Part A: Policy and Practice 91: 223235. CrossrefGoogle Scholar
Yu H, Pang H and Zhang M (2018) Value-added effects of transit-oriented development: the impact of urban rail on commercial property values with consideration of spatial heterogeneity. Papers in Regional Science 97(4): 13751396. CrossrefGoogle Scholar
Zhao L and Shen L (2019) The impacts of rail transit on future urban land use development: a case study in Wuhan, China. Transport Policy 81: 396405. CrossrefGoogle Scholar
Zhao P, Yang H, Kong L, Liu Y and Liu D (2018) Disintegration of metro and land development in transition China: a dynamic analysis in Beijing. Transportation Research Part A: Policy and Practice 116: 290307. CrossrefGoogle Scholar
Zhou M and Sisiopiku V (1997) Relationship between volume-to-capacity ratios and accident rates. Transportation Research Record 1581(1): 4752. CrossrefGoogle Scholar

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