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Tytuł artykułu

Investigation and optimisation of a sidewalk restoration program in human transportation in an ancient sustainable city

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Sidewalks play a very important role in the dynamism maintenance as well as the development of cities especially historic cities. To ensure the maintaining service quality of sidewalks, the first step is to prevent distress occurrence, thereafter repair the distress that occurred in the sidewalks. In historic cities, the lack of suitable sidewalks for walking led to the gradual elimination of pedestrians. Yazd is a historic city recorded as a world heritage site by UNESCO, which attracts many tourists from all over the world every year. Therefore, preserving the quality of sidewalks in this city is of great importance. In this research, the SCI method was used to investigate the condition of the sidewalks in the studied area. This method is similar to the pavement condition index (PCI) method. The results showed that the condition of sidewalks in the studied area is in the range of 55-70, which is relative.
Rocznik
Tom
Strony
61--72
Opis fizyczny
Bibliogr. 32 poz.
Twórcy
  • Civil Engineering Department, Yazd University, Safaeiah, Pazhoohesh Cross, 8915818411, Yazd, Iran
  • Civil Engineering Department, Yazd University, Safaeiah, Pazhoohesh Cross, 8915818411, Yazd, Iran
  • Civil Engineering Department, Yazd University, Safaeiah, Pazhoohesh Cross, 8915818411, Yazd, Iran
Bibliografia
  • 1. Abdulsamad Q.N., J.A. Mohammed, P.H. Abdullah. 2019. „Evaluation of The Existing Sidewalks in Duhok City”. Journal of Duhok University 22(1): 58-74.
  • 2. Bari J., M.H. Sunny, S.K. Nag, S.H. Tushar, M. Haque. 2018. „Development of Sidewalk Condition Index (Sci) Of Dhanmondi R/A, Gulshan and Bashundhara R/A of Dhaka City”. International Journal of Traffic and Transportation Engineering 7(3): 53-62.
  • 3. Corazza M.V., L.A. DiMascio, L.A. Moretti. 2017. „Management of sidewalk maintenance to improve walking comfort for senior citizens”. WIT Transactions on The Built Environment 176: 195-206.
  • 4. Corazza M.V., P. Di Mascio, L. Moretti. 2016. „Managing Sidewalk Pavement Maintenance: A Case Study to Increase Pedestrian Safety”. Journal of Traffic and Transportation Engineering 3(3): 203-214.
  • 5. Czech Piotr. 2017. „Physically disabled pedestrians - road users in terms of road accidents”. Lecture Notes in Networks and Systems 2: 157-165. DOI: 10.1007/978-3-319-43985-3_14. In: Edited by: Macioszek E., Sierpinski G. Contemporary challenges of transport systems and traffic engineering. 13th Scientific and Technical Conference on Transport Systems. Theory and Practice (TSTP). Katowice, SEP 19-21, 2016.
  • 6. Czech Piotr. 2017. „Underage pedestrian road users in terms of road accidents”. Advances in Intelligent Systems and Computing 505: 33-44. DOI: 10.1007/978-3-319-43991-4_4. In: Edited by: Sierpinski G. Intelligent transport systems and travel behaviour. 13th Scientific and Technical Conference on Transport Systems. Theory and Practice (TSTP). Katowice, SEP 19-21, 2016.
  • 7. Dowson A.J. 2003. „The Development of Surface Tactile Indicators”. Proceedings of 7Th International Conference on Concrete Block Paving. 12-15 October 2003. PAVE AFRICA Publications, Sun City, South Africa. P. 1-10.
  • 8. Ehrenfeucht R., S.A. Loukaitou. 2010. „Planning urban sidewalks: Infrastructure, Daily life and Destinations”. Journal of Urban Design 15(4): 459-471.
  • 9. Fantazi I., B.Z. Hecham, A-I. Petrişor. 2019. „The Impact of the Absence of Communication on the Success of Rehabilitation Projects of the Built Heritage: The Case of the Old City of Constantine”. Present Environment and Sustainable Development 13(1): 225-239.
  • 10. Huber T., K. Luecke, M. Hintze, J. Toole, M. Van Oosten. 2013. „Guide for Maintaining Pedestrian Facilities for Enhanced Safety”. Report No. Fhwa-Sa-13-037. Federal Highway Administration, Office of Safety, USA.
  • 11. Jacyna M. 1998. “Some aspects of multicriteria evaluation of traffic flow distribution in a multimodal transport corridor”. Archives of Transport 10(1-2): 37-52.
  • 12. Jacyna M., J. Merkisz. “Proecological approach to modelling traffic organization in national transport system”. Archives of Transport 2(30): 43-56.
  • 13. Jahan M.I., A.B. Mazumdar, M. Hadiuzzaman, S.M. Mashrur, M.N. Murshed. 2020. „Analyzing Service Quality of Pedestrian Sidewalks under Mixed Traffic Condition Considering Latent Variables”. Journal of Urban Planning and Development 146(2): 4020011.
  • 14. Jin C.J., R. Jiang, S.C. Wong, S. Xie, D. Li, N. Guo, W. Wang. 2019. „Observational characteristics of pedestrian flows under high-density conditions based on controlled experiments”. Transportation research part C: emerging technologies 109: 137-154.
  • 15. Kim D. 2019. „The transportation safety of elderly pedestrians: modeling contributing factors to elderly pedestrian collisions”. Accident Analysis and Prevention Journal 131: 268-274.
  • 16. Kim J., D. Park, Y. Suh, D. Jung. 2019. „Development of Sidewalk Block Pavement Condition Index (SBPCI) using Analytical Hierarchy Process”. Sustainability Journal 11(24): 7086.
  • 17. Kolejka J., J. Štrbík, R. Dulias. 2017. „Inventory and Regeneration Potential of Brownfields Along the D1/A1 Motorway Ostrava (Cz) – Gliwice (Pl)”. Geographia Technica 12(2): 119-138.
  • 18. Mphela Thuso. 2020. „Causes of road accidents in Botswana: An econometric model”. Journal of Transport and Supply Chain Management 14: a509. DOI: https://doi.org/10.4102/jtscm.v14i0.509.
  • 19. Noviandini Z.P., O.C. Dewi, B. Laksitoadi, M.N. Widyarta. 2020. „The Effect of Permeable Pavement on Pedestrian Walkway for Human Comfort”. Earth and Environmental Science 409(1): 1-8.
  • 20. Okte E., I.L. Al-Qadi, H. Ozer. 2019. „Effects of Pavement Condition on LCCA User Costs”. Transportation Research Record Journal 2673(5): 339-350.
  • 21. Padzi F.A., F. Ibrahim. 2012. „Accessibility of Visually Impaired Passengers at Urban Railway Stations in the Klang Valley”. International Transaction Journal of Engineering, Management and Applied Sciences and Technologies 3(3): 277-292.
  • 22. Pembuain A., S. Priyanto, L.B. Suparma. 2019. „The Evaluation of Tactile Ground Surface Indicator Condition and Effectiveness On the Sidewalk in Yogyakarta City, Indonesia”. Iatss Research Journal 44(1): 1-7.
  • 23. Prentkovskis Olegas, Andrey Beljatynskij, Rasa Prentkovskiene, Ivan Dyakov Dept, Laima Dabulevičiene. 2009. “A study of the deflections of metal road guardrail elements”. Transport 24(3): 225-233.
  • 24. Prentkovskis Olegas, Rasa Prentkovskiene, Ona Lukoseviciene. 2007. “Investigation of potential deformations developed by elements of transport and pedestrian traffic restricting gates during motor vehicle-gate interaction”. Transport 22(3): 229-235.
  • 25. Rahaman K.R., J.M. Lourenço, J.M. Viegas. 2012. „Perceptions of pedestrians and shopkeepers in European medium-sized cities: Study of Guimarães Portugal”. Journal of Urban Planning and Development 138(1): 26-34.
  • 26. Rossetti Silvia, Michela Tiboni, David Vetturi, Michele Zazzi, Barbara Caselli. 2020. „Measuring Pedestrian Accessibility to Public Transport in Urban Areas: a GIS-based Discretisation Approach”. European Transport \ Trasporti Europei 76 n. 2. ISSN: 1825-3997.
  • 27. Santos J., A. Ferreira, G. Flintsch. 2019. „An adaptive hybrid genetic algorithm for pavement management”. International Journal of Pavement Engineering 20(3): 266-286.
  • 28. Schmidt Marie, Stefan Voss. 2017. „Advanced systems in public transport”. Public Transport 9(1-2) Special Issue: 3-6.
  • 29. Schneider R.J., R.M. Ryznar, A.J. Khattak. 2004. „An accident waiting to happen: a spatial approach to proactive pedestrian planning”. Accident Analysis and Prevention journal 36(2): 193-211.
  • 30. Shaaban K. 2019. „Assessing sidewalk and corridor walkability in developing countries”. Sustainability Journal 11(14): 3865.
  • 31. Sousa N., J. Coutinho, E. Natividade. 2017. „Sidewalk infrastructure assessment using a multicriteria methodology for maintenance planning”. Journal of Infrastructure Systems 23(4): 05017002.
  • 32. Zafar M.S., S.R. Shah, M.J. Memon, T.A. Rind, M.A. Soomro. 2019. „Condition Survey for Evaluation of Pavement Condition Index of a Highway”. Civil Engineering Journal 5(6): 1367-1383
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-013ea375-918a-4c2e-8dcc-f6d80cca22fe
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