Abstract
A car-sharing system has been considered the most promising solution to solve the waste of natural resources, traffic congestion, and greenhouse gas emission in the city. However, the conventional car-sharing system relies on a trusted third party, which is challenging to maximize the benefits of the C2C model. This paper aims to design a decentralized car-sharing system based on the blockchain technique. The demander and supplier can use the smart contract to share the vehicle without the centralized system. In addition, even if the vehicle is damaged, the supplier can track the responsibility for the damage by accessing the order information stored in the blockchain. Simultaneously, the proposed method avoids collusion between the malicious user and the centralized server. Experiments have shown the performance analysis between the centralized car-sharing system and the proposed framework, pointing out the advantages of our new framework.
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Chen, TH., Chew, CJ., Chen, YC., Lee, JS. (2022). Preserving Collusion-Free and Traceability in Car-Sharing System Based on Blockchain. In: Hsieh, SY., Hung, LJ., Klasing, R., Lee, CW., Peng, SL. (eds) New Trends in Computer Technologies and Applications. ICS 2022. Communications in Computer and Information Science, vol 1723. Springer, Singapore. https://doi.org/10.1007/978-981-19-9582-8_54
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DOI: https://doi.org/10.1007/978-981-19-9582-8_54
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