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20 - Enabling Smart Mobility in African Cities

A Critical Perspective from South Africa

from Part III - Sustainable Urban Planning in Africa

Published online by Cambridge University Press:  07 December 2023

Patrick Brandful Cobbinah
Affiliation:
University of Melbourne
Eric Gaisie
Affiliation:
University of Melbourne
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Summary

This chapter discusses smart mobility in sub-Saharan Africa to provide insights into (i) the history and relevance of smart mobility in its cities; (ii) empirical cases of smart mobility experiences in selected cities; and (iii) the potential of smart mobility in advancing urban planning reimagination in this region. Cities of South Africa were used as cases to demonstrate the importance of smart mobility in urban planning reimagination. Findings indicate that smart mobility is a new concept in sub-Saharan Africa and is in its nascent state. There are multiple barriers to smart mobility, including lack of integrated transportation, lack of investment by municipalities, lack of non-motorised transportation, the economic constraint of people, the demographic character and social and cultural behaviour of people. The cities also possess significant potential for the adoption of smart mobility. However, smart mobility might bring challenges to the built environment by influencing it through the transformation of the transportation system and urban spatial morphology. The resolution of the issues related to these two transformations remains vital for the creation of smart mobility and consequently smart cities. Therefore, urban planning should be reimagined for the transformation of the transportation system and the built form of the cities.

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Publisher: Cambridge University Press
Print publication year: 2023

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References

Alyavina, E., Nikitas, A., & Njoya, E. T. (2020). Mobility as a service and sustainable travel behaviour: A thematic analysis study. Transportation Research Part F: Traffic Psychology and Behaviour, 73, 362381.CrossRefGoogle Scholar
Bashingi, N., Mostafa, M., & Das, D. (2020a). The state of congestion in the developing world: The case of Gaborone, Botswana. Transportation Research Procedia, 45, 434442.CrossRefGoogle Scholar
Bashingi, N., Mostafa, M., & Das, D. (2020b). Information communication technologies for travel in Southern African cities. In Mohammad, L. & Abd El-Hakim, R. (eds.), Sustainable issues in transportation engineering: GeoMEast 2019. Sustainable civil infrastructures. Cham: Springer.Google Scholar
Bencardino, M., & Greco, I. (2014). Smart communities: Social innovation at the service of the smart cities. TeMA Journal of Land Use Mobility and Environment, special issue, 39–51. https://doaj.org/article/b085d3cb7ae7495b9120276078be35e1Google Scholar
Benevolo, C., Dameri, R. P., & D’Auria, B. (2016). Smart mobility in Smart City: Action taxonomy, ICT intensity and public benefits. Empower. Organ. Enabling Platforms Artefacts, 13–28. https://doi.org/10.17265/2328-2142/2015.03.005CrossRefGoogle Scholar
Berawi, M. A. (2020). Managing nature 5.0: The role of digital technologies in the circular economy. International Journal of Technology, 11(4), 652655.CrossRefGoogle Scholar
Berawi, M. A., Suwartha, N., Asvial, M., Harwahyu, R., Suryanegara, M., Setiawan, E. A., Surjandari, I., Zagloel, T. Y. M., & Maknun, I. J. (2020). Digital innovation: Creating competitive advantages. International Journal of Technology, 11(6), 10761080.CrossRefGoogle Scholar
Chehri, A., & Mouftah, H. T. (2019). Autonomous vehicles in the sustainable cities, the beginning of a green adventure. Sustainable Cities and Society, 51, 101751.CrossRefGoogle Scholar
Cledou, G., Estevez, E., & Barbosa, L. S. (2018). A taxonomy for planning and designing smart mobility services. Government Information Quarterly, 35, 6176CrossRefGoogle Scholar
Dameri, R. P., (2017). ICT intensity in smart mobility initiatives, smart city implementation. Progress in IS. Cham: Springer.Google Scholar
Das, D. (2019). Non-motorized transportation for revitalizing the city centers of South Africa, 38th Southern African Transport Conference 2019 (SATC 2019), Pretoria.Google Scholar
Das, D. (2020). Perspectives of smart cities in South Africa through applied systems analysis approach: A case of Bloemfontein. Construction Economics and Building, 20(2), 6588.CrossRefGoogle Scholar
Das, D., & Emuze, F. (2014). Smart city perspectives of Bloemfontein, South Africa. Journal of Construction Project Management and Innovation, 4(2), 930950.Google Scholar
DCoG (Department of Cooperative Governance) (2021). A South African smart cities framework – A decision-making framework to guide the development of smart cities in South Africa, Department of Cooperative Governance (DCoG) in collaboration with the Council for Scientific and Industrial Research (CSIR), 1–37.Google Scholar
Emuze, F., & Das, D. (2015). Regenerative ideas for urban roads in South Africa. Municipal Engineer, 168(4), 209219.CrossRefGoogle Scholar
Eric, A., Fidelis, E., & Das, D. (2022). Indicators for safety culture in SME construction firms: A Delphi Study in Ghana. Journal of Financial Management of Property and Construction. https://doi.org/10.1108/JFMPC-04-2022-0020CrossRefGoogle Scholar
Gamboa-Rosales, N. K., Celaya-Padilla, J. M., Hernandez-Gutierrez, A. L., Moreno-Baez, A., Galván-Tejada, C. E., Galván-Tejada, J. I., González-Fernández, E., Gamboa-Rosales, H., & López-Robles, J. (2020). Visualizing the intellectual structure and evolution of intelligent transportation systems: A systematic analysis of research themes and trends. Sustainability, 12(21), 8759, 130.CrossRefGoogle Scholar
Garus, A., Alonso, B., Raposo, M. A., Ciuffo, B., & Dell’olio, L. (2022). Impact of new mobility solutions on travel behaviour and its incorporation into travel demand models. Journal of Advanced Transportation. https://doi.org/10.1155/2022/7293909CrossRefGoogle Scholar
Giffinger, R., Fertne, C., Kramar, H., Kalasek, R., Pichler-Milanovic, N., & Meijers, E. (2007). Smart cities – Ranking of European medium-sized cities. Centre of Regional Science. Vienna University of Technology, Vienna, Austria, Final Project Report, 125.Google Scholar
GlobalData Thematic Research (2020). History of smart cities: Timeline, 28 February. www.verdict.co.uk/smart-cities-timeline/Google Scholar
Haboucha, C. J., Ishaq, R., & Shiftan, Y. (2017). User preferences regarding autonomous vehicles. Transportation Research Part C: Emerging Technologies, 78, 3749.CrossRefGoogle Scholar
Hitge, G., & Joubert, J. W. (2021). A nodal approach for estimating potential cycling demand. Journal of Transport Geography, 90, 102943.CrossRefGoogle Scholar
Heyns, W. (2020). Smart mobility – Keeping it real, SAICE Civil Engineering, 28(8), 811.Google Scholar
IDP (2017). Integrated Development Plan, City of Mangaung, Free State, South Africa. Bloemfontein.Google Scholar
Komninos, N. (2002). Intelligent cities: Innovation, knowledge systems, and digital spaces. London: Taylor & Francis.Google Scholar
Komninos, N., Pallot, M., & Schaffers, H. (2013). Special issue on smart cities and the future internet in Europe. Journal of the Knowledge Economy, 4, 119134.CrossRefGoogle Scholar
Lawrence, F., Kavage, S., & Litman, T. (2006). Promoting public health through smart growth: Building healthier communities through transportation and land use policies and practices. www.vtpi.org/sgbc_health.pdfGoogle Scholar
Leviäkangas, P., & Ahonen, V. (2021). The evolution of smart and intelligent mobility – A semantic and conceptual analysis. International Journal of Technology, 12(5), 10191029.CrossRefGoogle Scholar
Lombardi, P. (2011). New challenges in the evaluation of smart cities. Network Industries Quarterly, 13(3), 810.Google Scholar
Miranda-Morenoa, L. F., Morency, P., & El Geneidy, A. M. (2011). The link between built environment, pedestrian activity and pedestrian–vehicle collision occurrence at signalized intersections. Accident Analysis and Prevention, 43, 16241634.CrossRefGoogle Scholar
Okuda, T., Hirasawa, S., Matsukuma, N., Fukumoto, T., Shimura, A. (2012). Smart mobility for smart cities. Hitachi Review, 61(3), 141146.Google Scholar
Papa, E., & Lauwers, D. (2015). Smart mobility: Opportunity or threat to innovate places and cities? Real Corp, Ghent, Belgium, pp. 543–550.Google Scholar
Pelikh, K. (n.d.). The best smart cities in Africa. www.o-city.com/blog/the-best-smart-cities-in-africaGoogle Scholar
Peprah, C., Amponsah, O., & Oduro, C. (2019). A system view of smart mobility and its implications for Ghanaian cities. Sustainable Cities and Society, 44, 739747.CrossRefGoogle Scholar
Republic of Rwanda (2017). Smart sustainable cities: A blueprint for Africa. Rwanda.Google Scholar
Retting, R. A., Williams, A. F., Preusser, D. F., & Weinstein, H. B. (1995). Classifying urban crashes for countermeasure development. Accident Analysis and Prevention, 27(3), 283294.CrossRefGoogle ScholarPubMed
SANRAL (2021). People’s guide to SANRAL’s integrated annual report 2021. The South African National Roads Agency Soc Ltd (SANRAL), pp. 124.Google Scholar
Smart Mobility Centre (2014). Spotlight on your mobility solutions. www.intertraffic.comGoogle Scholar
Sokolov, A., Veselitskaya, N., Carabias, V., & Yildirim, O. (2019). Scenario-based identification of key factors for smart cities development policies. Technological Forecasting & Social Change, 148, 119279.CrossRefGoogle Scholar
Thynell, M., Mohan, D., & Tiwari, G. (2010). Sustainable transport and the modernisation of urban transport in Delhi and Stockholm. Cities, 27(6), 421429.CrossRefGoogle Scholar
Townsend, A. M. (2013). Smart cities: Big data, civic hackers, and the quest for a new utopia. New York: W. W. Norton.Google Scholar
US Department of Transportation (2021). History of intelligent transportation systems: 2021 update Intelligent Transportation Systems Joint Program Office. US Department of Transportation, Washington, DC. Report No. FHWA-JPO-16-329.Google Scholar
Vaithilingam, S., Teh, P. L., Ahmed, P. K., Tan, C. P., & Ho, S. J. (2023). Travel behaviour and mobility in smart cities: An interdisciplinary review of mass transit in a smart city in Malaysia. In Duffy, V. G., Landry, S. J., Lee, J. D. & Stanton, N. (eds.), Human–automation interaction. Automation, collaboration, & E-Services (Vol. 11). Cham: Springer.Google Scholar
Von der Gracht, H. A. (2012). Consensus measurement in Delphi studies. Review and implications for future quality assurance. Technological Forecasting and Social Change, 79(8), 15251536.CrossRefGoogle Scholar

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