Road Infrastructure Development Index for Urban Residential Layouts Using Satellite Images and the Analytical Hierarchy Process
Publication: Journal of Infrastructure Systems
Volume 28, Issue 4
Abstract
Road infrastructure, an essential support system providing mobility and accessibility within residential layouts, has become a serious concern in several countries. In some places, residential layouts (subdivisions) have been developed through private ownership. If the norms laid down by central development authorities are not followed by local developers, land use, including road infrastructure, is affected. This study presents a quantitative assessment of the impact of improper development of urban residential layouts on road infrastructure. The study developed an index for assessing the road infrastructure within residential layouts based on identifying the deficiencies which affect mobility and accessibility. A road infrastructure development index (RIDI) was conceptualized using an analytical hierarchy process (AHP) and parameters that affect accessibility and commuter comfort in residential layouts derived from high-resolution satellite data. The parameters used to generate this RIDI were the number of approach roads, spatial road serviceability, road density, bottlenecks, population density, dead ends or cul-de-sacs, and road width. Sample layouts were selected from varying built-up land-use classes to extract the index parameters to develop the RIDI. The RIDI values estimated for sample layouts indicate the level of development of road infrastructure in the residential layouts. A case study of the Nagpur urban area in central India, showing estimated RIDI values, is discussed. The RIDI concept can be used for proper planning, monitoring, approvals, and improvement of road infrastructure in residential layouts in urban areas, especially in the developing countries, after its calibration for varying urban scenarios.
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Data Availability Statement
All data, models, or code that support the findings of this study are available from the corresponding author upon reasonable request.
Acknowledgments
The authors thank the anonymous reviewers for their comments and suggestions, and their colleagues for their support of the study.
References
Anderson, J. R., E. E. Hardy, T. Roach John, and R. E. Witmer. 1976. A land use and land cover classification system for use with remote sensor data, geological survey professional paper 964. Washington, DC: US Government Printing Office.
Banai, R. 2000. “Transit station area land use/site assessment with multiple criteria: An integrated GIS-expert system prototype.” J. Public Transp. 3 (1): 95–110. https://doi.org/10.5038/2375-0901.3.1.5.
Beiler, M. R. O., and C. Treat. 2014. “Integrating GIS and AHP to prioritize transportation infrastructure using sustainability metrics.” J. Infrastruct. Syst. 21 (3): 04014053. https://doi.org/10.1061/(ASCE)IS.1943-555X.0000245.
Briceño-Garmendia, C., H. Moroz, J. Rozenberg, X. Lv, S. Murray, and L. Bonzanigo. 2015. “Road networks, accessibility, and resilience: The cases of Colombia, Ecuador, and Peru.” In An LCR regional study, The World Bank Latin America and the Caribbean region office of the chief economist. Washington, DC: World Bank.
Census of India. 2011. District census handbook. New Delhi, India: Government of India.
Chandira, S. M. 2007. “Development control rules and byelaws in Tamil Nadu.” J. Inst. Town Planners India 4 (1): 37–43.
Cowie, C. T., D. Ding, M. I. Rolfe, D. J. Mayne, B. Jalaludin, A. Bauman, and G. G. Morgan. 2016. “Neighbourhood walkability, road density and socio-economic status in Sydney, Australia.” Environ. Health 15 (1): 58. https://doi.org/10.1186/s12940-016-0135-y.
Ebrahim, M. A.-B., and I. Y. A.-E. Abed-Elrahman. 2011. “Planning road networks in new cities using GIS: The case of New Sohag, Egypt.” Int. J. Geoinformatics 7 (3): 63–70.
Godschalk, D. 2007. “Land use planning challenges: Coping with conflicts in visions of sustainable development and livable communities.” J. Am. Plann. Assoc. 70 (1): 5–13. https://doi.org/10.1080/01944360408976334.
Handy, S. L. 2002. Accessibility-vs. mobility-enhancing strategies for addressing automobile dependence in the US. UC Davis: Institute of Transportation Studies.
Hochschild, T. R., Jr. 2015. “The cul-de-sac effect: Relationship between street design and residential social cohesion.” J. Urban Plann. Dev. 141 (1): 05014006. https://doi.org/10.1061/(ASCE)UP.1943-5444.0000192.
Inti, S., and V. Tandon. 2017. “Application of fuzzy preference–analytic hierarchy process logic in evaluating sustainability of transportation infrastructure requiring multicriteria decision making.” J. Infrastruct. Syst. 23 (4): 1–13. https://doi.org/10.1061/(ASCE)IS.1943-555X.0000373.
IRC (Indian Roads Congress). 1977. Guidelines for space standards for roads in urban areas. IRC:69. New Delhi, India: IRC.
IRC (Indian Roads Congress). 2012. Guidelines for pedestrian facilities. IRC:103. New Delhi, India: IRC.
Jato-Espino, D., E. Castillo-Lopez, J. Rodriguez-Hernandez, and J. C. Canteras-Jordana. 2014. “A review of application of multi-criteria decision making methods in construction.” Autom. Constr. 45 (Sep): 151–162. https://doi.org/10.1016/j.autcon.2014.05.013.
Jedlička, J., M. Havlíček, I. Dostál, J. Huzlík, and H. Skokanová. 2019. “Assessing relationships between land use changes and the development of a road network in the Hodonín region (Czech Republic).” Quaestiones Geographicae 38 (1): 145–159. https://doi.org/10.2478/quageo-2019-0003.
Johnson, A. 2003. “Bus transit and land use: Illuminating the interaction.” Transportation 6 (4): 21–39. https://doi.org/10.5038/2375-0901.6.4.2.
Katpatal, Y. B., A. Kute, and D. R. Satapathy. 2008. “Surface and air temperature studies in relation to land use/land cover of Nagpur urban area, using Landsat 5 TM data.” J. Urban Plann. Dev. 134 (3): 110–118. https://doi.org/10.1061/(ASCE)0733-9488(2008)134:3(110).
Katpatal, Y. B., and B. V. S. Rama Rao. 2011. “Urban spatial decision support system for municipal solid waste management of Nagpur urban area using high-resolution satellite data and geographic information system.” J. Urban Plann. Dev. 137 (1): 65–76. https://doi.org/10.1061/(ASCE)UP.1943-5444.0000043.
Khatri, K. B., K. Vairavamoorthy, and E. Akinyemi. 2011. “Framework for computing a performance index for urban infrastructure systems using a fuzzy set approach.” J. Infrastruct. Syst. 17 (4): 163–175. https://doi.org/10.1061/(ASCE)IS.1943-555X.0000062.
Klug, S., and Y. Hayashi. 2012. “Urban sprawl and local infrastructure in Japan and Germany.” J. Infrastruct. Syst. 18 (4): 232–241. https://doi.org/10.1061/(ASCE)IS.1943-555X.0000101.
Kshirsagar, J. B., and R. Srinivas. 2012. “Planning and development 2025: Professional and academic challenges.” In Proc., 60th National Town and Country Planning Congress, 8–20. New Delhi, India: Institute of Town Planners of India.
Margerum, R. D., S. Brody, R. Parker, and G. McEwen. 2013. “Metropolitan smart-growth centers: An assessment of incentive policies in four regions.” J. Transp. Land Use 6 (2): 21–32. https://doi.org/10.5198/jtlu.v6i2.257.
Municipal Administration and Urban Development Department. 2017. “Layout and sub-division rules, Government of Andhra Pradesh Municipal Administration and Urban Development Department vide G.O.Ms.No.275, MA & UD (H) Dept.,dt.18-07-2017.” Accessed March 22, 2020. http://dtcp.ap.gov.in/dtcpweb/GOS/275,%20Dt.18-07-2017-Layout%20Rules-2017.pdf.
Nallathiga, R. 2009. “From master plan to vision plan: The changing role of plans and plan making in city development (With reference to Mumbai).” Theor. Empirical Researches Urban Manage. 4 (13): 141–157.
NMC (Nagpur Municipal Corporation). 2015. “City development plan for Nagpur, 2041.” Accessed March 22, 2020. https://www.nmcnagpur.gov.in/assets/250/2018/10/mediafiles/Final_CDP_Nagpur_-Mar_15.pdf.
Planning Commission, Government of India. 2013. “12th Five Year Plan.” Accessed February 6, 2020. https://planningcommission.gov.in/plans/planrel/12thplan/pdf/12fyp_vol2.pdf.
Plebankiewicz, E., and D. Kubek. 2015. “Multicriteria selection of the building material supplier using AHP and fuzzy AHP.” J. Constr. Eng. Manage. 142 (1): 04015057. https://doi.org/10.1061/(ASCE)CO.1943-7862.0001033.
Poulose, T. K. 2007. “Inadequacies and infirmities in development control regulations.” In Proc., 55th National Town and Country Planning Congress, 150–156. New Delhi, India: Institute of Town Planners of India.
Rimal, B., L. Zhang, H. Keshtkar, B. N. Haack, S. Rijal, and P. Zhang. 2018. “Land use/land cover dynamics and modeling of urban land expansion by the integration of cellular automata and Markov chain.” ISPRS Int. J. Geo-Inf. 7 (4): 154. https://doi.org/10.3390/ijgi7040154.
Rodrigue, J.-P., T. Notteboom, and J. Shaw. 2013. The SAGE handbook of transport studies, 592. London: SAGE.
Saaty, T. L. 1980. The analytic hierarchy process. New York: McGraw-Hill.
Saaty, T. L. 1992. Multicriteria decision-making, the analytical hierarchy process. Pittsburg, PA: RWS Publications.
Saaty, T. L. 2008. “Decision making with the analytic hierarchy process.” Int. J. Serv. Sci. 1 (1): 83–98. https://doi.org/10.1504/IJSSCI.2008.017590.
Santosa, W., and T. B. Joewono. 2005. “An evaluation of road network performance in Indonesia.” In Vol. 5 of Proc., Eastern Asia Society for Transportation Studies, 2418–2433. Bangkok, Thailand: Eastern Asia Society for Transportation Studies.
Sengupta, B. K., and H. Banerji. 2012. “Issue for future urban development and reform agenda in planning and regulatory framework.” In Proc., 60th National Town and Country Planning Congress, 150–158. New Delhi, India: Institute of Town Planners of India.
Shaw, S. L., and X. Xin. 2003. “Integrated land use and transportation interaction: A temporal GIS exploratory data analysis approach.” J. Transp. Geogr. 11 (2): 103–115. https://doi.org/10.1016/S0966-6923(02)00070-4.
Silva Portugal, L., and L. Amorim de Araújo. 2008. “Procedure to analyze the performance of urban networks in Brazilian cities.” J. Urban Plann. Dev. 134 (3): 119–128. https://doi.org/10.1061/(ASCE)0733-9488(2008)134:3(119).
Singh, A. 2010. “GIS based rural road network planning for developing countries.” J. Transp. Eng. 142 (6). https://doi.org/10.1061/(ASCE)TE.1943-5436.0000212.
Suanmali, S., K. Chankao, and V. Ammarapala. 2014. “Road infrastructure and road user’s satisfactions: A case study of Motorway Route 7, Thailand.” In Proc., SHS Web of Conf., 12. Les Ulis, France: EDP Sciences. https://doi.org/10.1051/shsconf/20141201028.
Swamy, M. C. K., B. Bhaskara Rao, and V. M. Hegde. 2008. Urban planning and development at crossroads. Bangalore, India: Books for Change.
URDPFI (Urban and Regional Development Plans Formulation and Implementation Guidelines). 2014. Guidelines for urban and regional development plans formulation and implementation. Delhi, India: Ministry of Urban Development.
Weiping, H., and W. Chi. 2010. “Urban road network accessibility evaluation method based on GIS spatial analysis techniques.” Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci. 38 (2): 114–117.
Xu, Y., J. Sun, J. Zhang, Y. Xu, M. Zhang, and X. Liao. 2012. “Combining AHP with GIS in synthetic evaluation of environmental suitability for living in China’s 35 major cities.” Int. J. Geog. Inf. Syst. 26 (9): 1603–1623. https://doi.org/10.1080/13658816.2011.642800.
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Received: Nov 7, 2020
Accepted: Jun 23, 2022
Published online: Sep 22, 2022
Published in print: Dec 1, 2022
Discussion open until: Feb 22, 2023
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