Challenges of Vehicle-to-Everything Communication. Interviews among Industry Experts

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Cite as text

						@Select Types{,
							 
							 
							 
							 
							 
							Journal   = "Band-1",
							 Title= "Challenges of Vehicle-to-Everything Communication. Interviews among Industry Experts", 
							Author= "Maximilian Renner, Niels Münzenberger, Johanna von Hammerstein, Sebastian Lins and Ali Sunyaev", 
							Doi= "https://doi.org/10.30844/wi_2020_r12-renner", 
							 Abstract= "By 2025 every new car sold will be connected to the Internet, leading to a disruptive change of road transportation, but also resulting in diverse challenges regarding Vehicle-to-Everything Communication (V2X). Prior research has mostly focused on the technological challenges of V2X and neglects to consider environmental and organizational challenges resulting from a highly interconnected and interdependent market. We conducted 19 semistructured interviews with experts from multiple market players to achieve a more holistic overview of what challenges implementation and diffusion of V2X are facing. Our findings reveal that V2X is perceived as a critical information infrastructure coming with several challenges that must be tackled, such as security and privacy issues, lacking trust and acceptance, and entangled and unclear responsibilities. By synthesizing major challenges, we provide recommendations for future research avenues to overcome existing challenges and enable widespread diffusion of V2X to unleash its full potential.", 
							 Keywords= "Vehicle-to-Everything Communication, connected cars, multistakeholder perspective, TOE framework.", 
							}
					
Maximilian Renner, Niels Münzenberger, Johanna von Hammerstein, Sebastian Lins and Ali Sunyaev: Challenges of Vehicle-to-Everything Communication. Interviews among Industry Experts. Online: https://doi.org/10.30844/wi_2020_r12-renner (Abgerufen 26.12.24)

Abstract

Abstract

By 2025 every new car sold will be connected to the Internet, leading to a disruptive change of road transportation, but also resulting in diverse challenges regarding Vehicle-to-Everything Communication (V2X). Prior research has mostly focused on the technological challenges of V2X and neglects to consider environmental and organizational challenges resulting from a highly interconnected and interdependent market. We conducted 19 semistructured interviews with experts from multiple market players to achieve a more holistic overview of what challenges implementation and diffusion of V2X are facing. Our findings reveal that V2X is perceived as a critical information infrastructure coming with several challenges that must be tackled, such as security and privacy issues, lacking trust and acceptance, and entangled and unclear responsibilities. By synthesizing major challenges, we provide recommendations for future research avenues to overcome existing challenges and enable widespread diffusion of V2X to unleash its full potential.

Keywords

Schlüsselwörter

Vehicle-to-Everything Communication, connected cars, multistakeholder perspective, TOE framework.

References

Referenzen

1. Fallgren, M., Dillinger, M., Alonso-Zarate, J., Boban, M., Abbas, T., Manolakis, K., Mahmoodi, T., Svensson, T., Laya, A., Vilalta, R.: Fifth-Generation Technologies for the Connected Car. IEEE Veh. Technol. Mag. 13, 28–38 (2018)
2. McCarthy, N.: Connected Cars By The Numbers, https://www.forbes.com/sites/ niallmccarthy/2015/01/27/connected-cars-by-the-numbers-infographic/##5c02b1fe1028
3. Boban, M., Kousaridas, A., Manolakis, K., Eichinger, J., Xu, W.: Connected Roads of the Future. IEEE Veh. Technol. Mag. 13, 110–123 (2018)
4. Rizvi, S., Willet, J., Perino, D., Marasco, S., Condo, C.: A Threat to Vehicular Cyber Security and the Urgency for Correction. Procedia Computer Science 114, 100–105 (2017)
5. Miller, C. and Valasek, C.: Remote Exploitation of an Unaltered Passenger Vehicle, http://illmatics.com/Remote%20Car%20Hacking.pdf
6. Datta, S.K., Da Costa, R.P.F., Harri, J., Bonnet, C.: Integrating connected vehicles in Internet of Things ecosystems. In: Proc. IEEE 17th International Symposium on WoWMoM, pp. 1–6 (2016)
7. Eze, E.C., Zhang, S.-J., Liu, E.-J., Eze, J.C.: Advances in vehicular ad-hoc networks (VANETs). Int. J. Autom. Comput. 13, 1–18 (2016)
8. Tornatzky, L.G., Fleischer, M.: The processes of technological innovation. Lexington Books, Lexington, Mass. (1990)
9. Corchero, C., Sanmarti, M.: Vehicle- to- Everything (V2X). In: Proc. 15th International Conference on the European Energy Market, pp. 1–4 (2018)
10. Alesiani, F., Gajek, S.: Remote Testimony. In: Proc. IEEE 83rd Vehicular Technology Conference, pp. 1–5 (2016)
11. Festag, A.: Standards for vehicular communication—from IEEE 802.11p to 5G. Elektrotech. Inftech. 132, 409–416 (2015)
12. Abboud, K., Omar, H.A., Zhuang, W.: Interworking of DSRC and Cellular Network Technologies for V2X Communications. IEEE Trans. Veh. Technol. 65, 9457–9470 (2016)
13. MacHardy, Z., Khan, A., Obana, K., Iwashina, S.: V2X Access Technologies. IEEE Commun. Surv. Tutorials 20, 1858–1877 (2018)
14. Bey, T., Tewolde, G., Kwon, J.: Short Survey of Vehicular Communication Technology. In: Proc. IEEE International Conference on EIT, pp. 515–518 (2018)
15. Singh, P.K., Nandi, S.K., Nandi, S.: A tutorial survey on vehicular communication state of the art, and future research directions. Vehicular Communications 18, 100164 (2019)
16. Review of the USDOT Report on Connected Vehicle Initiative Communications Systems Deployment. Transportation Research Board, Washington, D.C. (2015)
17. Kuechler, W.L., Park, E.H., Vaishnavi, V.K.: Formalizing Theory Development in IS Design Science Research. In: Proc. AMCIS (2009)
18. Smolander, K., Rossi, M., Purao, S.: Software architectures. Blueprint, Literature, Language or Decision? European Journal of Information Systems 17, 575–588 (2008)
19. Volkoff, O., Strong, D.M., Elmes, M.B.: Understanding enterprise systems-enabled integration. European Journal of Information Systems 14, 110–120 (2005)
20. Abraham, C., Boudreau, M.-C., Junglas, I., Watson, R.: Enriching our theoretical repertoire. European Journal of Information Systems 22, 56–75 (2013)
21. Palinkas, L.A., Horwitz, S.M., Green, C.A., Wisdom, J.P., Duan, N., Hoagwood, K.: Purposeful Sampling for Qualitative Data Collection and Analysis in Mixed Method Implementation Research. Administration and policy in mental health 42, 533–544 (2015)
22. Myers, M.D.: Qualitative research in business & management. Sage Publ, London (2013)
23. Yin, R.K.: Case study research. Design and methods. SAGE, Los Angeles, London, New Delhi, Singapore, Washington, DC (2014)
24. Corbin, J.M., Strauss, A.L.: Basics of qualitative research. SAGE, Los Angeles, London, New Delhi, Singapore, Washington DC, Boston (2015)
25. Jones, S., Hughes, J.: Understanding IS evaluation as a complex social process. European Journal of Information Systems 10, 189–203 (2001)
26. Volkoff, O., Strong, D.M., Elmes, M.B.: Technological Embeddedness and Organizational Change. Organization Science 18, 832–848 (2007)
27. Urquhart, C., Lehmann, H., Myers, M.D.: Putting the ‘theory’ back into grounded theory. Information Systems Journal 20, 357–381 (2010)

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