Sensors (Jul 2021)

A Novel Crowdsourcing Model for Micro-Mobility Ride-Sharing Systems

  • Mohammed Elhenawy,
  • Mostafizur R. Komol,
  • Mahmoud Masoud,
  • Shi Qiang Liu,
  • Huthaifa I. Ashqar,
  • Mohammed Hamad Almannaa,
  • Hesham A. Rakha,
  • Andry Rakotonirainy

DOI
https://doi.org/10.3390/s21144636
Journal volume & issue
Vol. 21, no. 14
p. 4636

Abstract

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Substantial research is required to ensure that micro-mobility ride sharing provides a better fulfilment of user needs. This study proposes a novel crowdsourcing model for the ride-sharing system where light vehicles such as scooters and bikes are crowdsourced. The proposed model is expected to solve the problem of charging and maintaining a large number of light vehicles where these efforts will be the responsibility of the crowd of suppliers. The proposed model consists of three entities: suppliers, customers, and a management party responsible for receiving, renting, booking, and demand matching with offered resources. It can allow suppliers to define the location of their private e-scooters/e-bikes and the period of time they are available for rent. Using a dataset of over 9 million e-scooter trips in Austin, Texas, we ran an agent-based simulation six times using three maximum battery ranges (i.e., 35, 45, and 60 km) and different numbers of e-scooters (e.g., 50 and 100) at each origin. Computational results show that the proposed model is promising and might be advantageous to shift the charging and maintenance efforts to a crowd of suppliers.

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