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A data-driven framework for the safe integration of micro-mobility into the transport system: Comparing bicycles and e-scooters in field trials.

Authors :
Dozza, Marco
Violin, Alessio
Rasch, Alexander
Source :
Journal of Safety Research. Jun2022, Vol. 81, p67-77. 11p.
Publication Year :
2022

Abstract

• We propose a procedure to compare micromobility solutions in field trials. • We exemplify the procedure by comparing a bicycle and an e-scooter. • We highlight the limitation of our preliminary results. • We present the potential of the procedure for further applications. Introduction: Recent advances in technology create new opportunities for micro-mobility solutions even as they pose new challenges to transport safety. For instance, in the last few years, e-scooters have become increasingly popular in several cities worldwide; however, in many cases, the municipalities were simply unprepared for the new competition for urban space between traditional road users and e-scooters, so that bans became a necessary, albeit drastic, solution. In many countries, traditional vehicles (such as bicycles) may not be intrinsically safer than e-scooters but are considered less of a safety threat, possibly because—for cyclists—social norms, traffic regulations, and access to infrastructure are established, reducing the number of negative stakeholders. Understanding e-scooter kinematics and e-scooterist behavior may help resolve conflicts among road users, by favoring a data-driven integration of these new e-vehicles into the transport system. In fact, regulations and solutions supported by data are more likely to be acceptable and effective for all stakeholders. As new personal-mobility solutions enter the market, e-scooters may just be the beginning of a micro-mobility revolution. Method: This paper introduces a framework (including planning, execution, analysis, and modeling) for a data-driven evaluation of micro-mobility vehicles. The framework leverages our experience assessing bicycle dynamics in real traffic to make objective and subjective comparisons across different micro-mobility solutions. In this paper, we use the framework to compare bicycles and e-scooters in field tests. Results: The preliminary results show that e-scooters may be more maneuverable and comfortable than bicycles, although the former require longer braking distances. Practical Applications: Data collected from e-scooters may, in the short term, facilitate policy making, geo-fencing solutions, and education; in the long run, the same data will promote the integration of e-scooters into a cooperative transport system in which connected automated vehicles share the urban space with micro-mobility vehicles. Finally, the framework and the models presented in this paper may serve as a reference for the future assessment of new micro-mobility vehicles and their users' behavior (although advances in technology and novel micro-mobility solutions will inevitably require some adjustments). [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00224375
Volume :
81
Database :
Academic Search Index
Journal :
Journal of Safety Research
Publication Type :
Academic Journal
Accession number :
156895997
Full Text :
https://doi.org/10.1016/j.jsr.2022.01.007