Leveraging distributed ledger technologies for shared seamless electric mobility-as-a-service to improve sustainable public transportation in smart cities

Leveraging distributed ledger technologies for shared seamless electric mobility-as-a-service to improve sustainable public transportation in smart cities

The use of Electric Vehicles (EV) will promote urban sustainability, decrease air pollution, and reduce noise pollution. In this landscape a new mobility concept termed shared electric mobility-as-a-service (eMaaS) has emerged over the years. Shared eMaaS comprises the seamless integration of variou...

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Bibliographic Details
Main Author: Bokolo Anthony Jnr
Format: Article
Language:English
Published: Elsevier 2025-06-01
Series:Sustainable Futures
Subjects:
Electric mobility-as-a-service
Electric car sharing
Sustainable mobility
Sustainable public transportation
Distributed ledger technologies, smart cities
Online Access:http://www.sciencedirect.com/science/article/pii/S2666188825003235
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Summary:The use of Electric Vehicles (EV) will promote urban sustainability, decrease air pollution, and reduce noise pollution. In this landscape a new mobility concept termed shared electric mobility-as-a-service (eMaaS) has emerged over the years. Shared eMaaS comprises the seamless integration of various forms of electric transport services available via one single digital platform. Although, the current shared eMaaS solutions are based mostly on fragmented and siloed systems which has resulted to issues related to the exchange of data and services from different eMaaS providers. Therefore, there is need for integrators and enablers to achieve an inter-operable and intra-operable seamless shared eMaaS. To this end, Distributed Ledger Technologies (DLT) is proposed in this study to enable new business models for shared electric mobility solutions. As compared to conventional approaches DLT offers a transparent, cost-efficient, and decentralized services both for managing the supply and demand sides of shared eMaaS to improve public transportation. Accordingly, this article presents a DLT based business models grounded on the literature to decentralize shared eMaaS. Qualitative data is collected from Scopus and Web of Science database, and descriptive analysis is employed to analyze the collected data. Findings from this study presents use case scenarios of how IOTA tangle as a DLT using smart contracts and IOTA wallet/tokens are deployed to design novel business models for managing seamless travel experience for electric car sharing and leasing to improve public transportation.
ISSN:2666-1888

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