Abstract
Homo Viator [traveling Man] refers in this article to the mobile individuals of the 2020s, gradually exposed to EVs (electric vehicles) and AVs (autonomous vehicles), as electricity-based and Internet-dependent personal road transport, respectively. This article examines the similarities and differences between the electrification and Internetizing of terrestrial personal mobilities and assesses the significance of these two trends for physically moving individuals, mobile society, and mobility-based urban space. EVs are already increasingly adopted, whereas AVs are still mostly being tested. Internet-based communications have already become universally adopted. Electricity and the Internet differ from each other, notably as far as the car industry is concerned, by their roles, modes of production, transmission channels, and storage. For individuals, EVs and AVs differ from each other in several ways: The degree of personal operations and the required accounting and licensing; the ability to move human-made products electronically; ergonomic aspects; travel and communications as an experience; and interactions with fellow individuals. From a societal perspective, the universal use of electricity and the Internet for road transport will require strict security assurance for their production and transmission. In addition, the importance of the relevant communications and electricity professions will grow. On yet another end, the ability to work during car riding may blur the buffer time between work and home. Spatially, EV-based cities will be quieter and cleaner ones, whereas AV-based cities will be characterized by removing traffic lights and road signs, coupled with the availability of more parking spaces.
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References
Acheampong, R. A., Cugurullo, F., Gueriau, M., & Dusparic, I. (2021). Can autonomous vehicles enable sustainable mobility in future cities? Insights and policy challenges from user preferences over different transport options. Cities, 112, 103134. https://doi.org/10.1016/j.cities.2021.103134
Agar, J. (2003). Constant touch: A global history of the mobile phone. revolutions in science.
Ashton, K. 2009. The 'Internet of Things' thing, RFID Journal. Retrieved March 2, 2022, from http://www.rfidjournal.com/articles/view?4986.
Bán, D. (2007). The railway station in the social sciences. The Journal of Transport History, 28, 289–293.
Cugurullo, F., Acheampong, R. A., Gueriau, M., & Dusparic, I. (2021). The transition to automatic cars, the redesign of cities and the future of urban sustainability. Urban Geography, 42, 833–859.
Dannemiller, K. A., Mondal, A., & Asmussen, K. E. (2021). Investigating autonomous vehicle impacts on individual activity-travel behavior. Transportation Research Part A, 148, 402–422.
Duarte, F., & Ratti, C. (2018). The impact of autonomous vehicles on cities: A review. Journal of Urban Technology, 25, 3–18.
Eyerman, R., & Löfgren, O. (1995). Romancing the road: Road movies and images of mobility. Theory, Culture and Society, 12, 53–79.
Guan, J., Zhang, S., D’Ambrosio, L. A., Zhang, K., & Coughlin, J. F. (2021). Potential impacts of autonomous vehicles on urban sprawl: A comparison of Chinese and US car-oriented adults. Sustainability, 13, 7632. https://doi.org/10.3390/su13147632
Gutieerrez, C. I. (2021). A new wave of urban sprawl: Influence of autonomous vehicles on the policy toolkit and property tax revenues of local governments. Journal of Urban Technology, 28, 155–174.
Heinrichs, D. (2016). Autonomous driving and urban land use. In M. Maurer, J. C. Gerdes, B. Lenz, & H. Winner (Eds.), Autonomous Driving: Technical, Legal and Social Aspects (pp. 213–231). Springer Open.
ITU International Telecommunication Union). (2022). Key ICT indicators for developed and developing countries, the world and special regions (totals and penetration rates). Statistics. Retrieved April 27, 2022, from https://www.itu.int/en/ITU-D/Statistics/Pages/stat/default.aspx.
Kassens-Noor, E., Dake, D., Decaminada, T., Kotval-K, Z., Qu, T., Wilson, M., & Pentland, B. (2020). Sociomobility of the 21st century: Autonomous vehicles, planning, and the future city. Transport Policy, 99, 329–335.
Kellerman, A. (1993). Telecommunications and Geography. London: Belhaven Pinter, New York, Halsted John Wiley.
Kellerman, A. (1994). Commuting as experience and its ramifications for telecommuting. Netcom, 8, 225–234.
Kellerman, A. (2014). The Internet as Second Action Space. Routledge.
Kellerman, A. (2018). Automated and Autonomous Spatial Mobilities. Edward Elgar.
Kellerman, A. (2020). Globalization and Spatial Mobilities: Commodities and People, Capital. Edward Elgar.
Kellerman, A. (2021). Social-Spatial Interaction. From Face-to-Face to Virtual Communications. Applied Mobilities. Advance online publication. https://doi.org/10.1080/23800127.2021.1928992
Kellerman, A. (2022a). The electrification of road transport and its Urban effects. Environment and Planning b: Urban Analytics and City Science. https://doi.org/10.1177/2F23998083221088291
Kellerman, A. (2022b). Post-coronavirus personal spatial mobilities: A speculative view. Journal of Urban Technology. https://doi.org/10.1080/10630732.2022b.2044743
Lathem, A., & Natrtrass, M. (2019). Autonomous vehicles, car-dominated environments, and cycling: Using an ethnography of infrastructure to reflect on the prospects of a new transportation technology. Journal of Transport Geography. https://doi.org/10.1016/j.jtrangeo/2019.102539
Lee, S., Jang, K. M., Kang, N., Kim, J., Oh, M., & Kim, Y. (2022). Redesigning urban elements and structures considering autonomous vehicles: Preparing design strategies for wide implementation in cities. Transportation Research Part A, 148, 402–422.
Liu, P., Xu, S.-X., Ong, G. P., Tian, Q., & Ma, S. (2021). Effect of autonomous vehicles on travel and urban characteristics. Transportation Research Part B, 153, 128–148.
Marcel, G.H. (1951). Homo Viator: Introduction to the Metaphysic of Hope. E. Craufurd (trans.). H. Regnery Co.
Maurer, M., J.C. Gerdes, B. Lenz, & H. Winner (Eds.). (2016). Autonomous driving: Technical, legal and social aspects. Springer Open.
Milakis, D., & Müller, S. (2021). The societal dimension of the automated vehicles transition: Towards a research agenda. Cities, 113, 1–12.
Mitchell, W. J., Borroni-Bird, C. E., & Burns, L. D. (2010). Reinventing the automobile: Personal Urban mobility for the 21st Century. MIT Press.
Nadafianshahamabadi, R., Tayarani, M., & Rowangould, G. (2021). A closer look at urban development under the emergence of autonomous vehicles: Traffic. Land use and air quality impacts. Journal of Transport Geography, 94, 103113. https://doi.org/10.1016/j.jtrangeo.2021.103113
Nikitas, A., Vitel, A.-E., & Cotet, C. (2021). Autonomous vehicles and employment: An urban futures revolution or catastrophe? Cities, 114, 103203. https://doi.org/10.1016/j.cities.2021.103203
Pink, S., Fors, V., & Glöss, M. (2018). The contingent futures of the mobile present: Automation as possibility. Mobilities, 13, 615–631.
Pink, S., Lacey, J., Harvey, L., Sumartojo, S., Duque, M., & Moore, S. (2019). Recycling traffic noise: Transforming sonic automobilities for revalue and well being. Mobilities, 14, 233–249.
Rafael, S., Correia, L. P., Lopes, D., Bandeira, J., Coelho, M. C., Andrade, M., Borrego, C., & Miranda, A. L. (2020). Autonomous vehicles opportunities for cities air quality. Science of the Total Environment, 712, 136546. https://doi.org/10.1016/j.scitotenv.2020.136546
Skidmore, Z. (2021). Electric vehicle sales surge in 2021. Power Technology, Retrieved September 23, from https://www.power-technology.com/news/electric-vehicle-sales-surge-in-2021/.
Sovacool, B. K., Kester, J., Noel, L., & de Rubens, G. Z. (2019). Income, political affiliation, urbanism and geography in stated preferences for electric vehicles (EVs) and vehicle-to-grid (V2G) technologies in Northern Europe. Journal of Transport Geography, 78, 214–229.
Storedot 2022. Extreme-fast charging technology. Retrieved 10 Feb 2022, from https://www.store-dot.com/.
Taalbi, J., & Nielsen, H. (2021). The role of energy infrastructure in shaping early adoption of electric and gasoline cars. Nature Energy, 6, 970–976.
Thrift, N. (1995). A hyperactive world. In R. J. Johnston, P. J. Taylor, & M. J. Watts (Eds.), Geographies of Global Change: Remapping the World in the Late Twentieth Century (pp. 18–35). Blackwell.
Thrift, N. (2004). Driving in the city. Theory, Culture and Society, 21, 41–59.
Augoyard J-F. & H. Torgue. (2005). Sonic experience, A. McCartney & D. Paquette (trans.) McGill-Queens University Press.
Tucker, G. H. (2003). Homo Viator: Itineraries of exile, displacement, and writing in Renaissance Europe. Droz.
Whitby, M., Hardie, P., & Whitby, M. (Eds.). (1987). Classical essays for John Bramble. Bristol Classical Press.
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Kellerman, A. Homo Viator 2020s: electrified and internet-based personal mobilities. GeoJournal 88, 2553–2562 (2023). https://doi.org/10.1007/s10708-022-10764-8
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DOI: https://doi.org/10.1007/s10708-022-10764-8