B-Ride: Ride Sharing with Privacy-Preservation, Trust and Fair Payment with Driver Facility using Blockchain Framework
Rutuja Mungase1, Payal Dhumal2, Priti Sagalgile3, S. G. Joshi4
1,2,3 Students and 4Asst.Prof. of Department of Computer Engineering,
Vishwabharti Academy’s College of Engineering, Ahmednagar, Maharashtra-414201 ___________________________________________________________________________________________________________________________________
Abstract: B-Ride is a novel ride-sharing system that employs public blockchain technology to preserve the privacy of its users. The proposed system aims to address the privacy concerns of traditional ride-sharing platforms, which require users to disclose their personal information and travel history to a centralized entity. B-Ride leverages the transparency and immutability of blockchain to facilitate secure and decentralized ride-sharing without compromising user privacy. The B-Ride system uses a smart contract to execute the ride-sharing process, which ensures the authenticity of the transaction and the privacy of user data. The smart contract automates the matching of riders with drivers, the payment process, and the provision of feedback. The system also incorporates a reputation-based mechanism to incentivize good behavior and enhance the trustworthiness of the platform. B-Ride uses a public blockchain to ensure transparency and accountability, allowing users to verify the integrity of the system and the accuracy of the information. The use of a public blockchain also eliminates the need for a central authority, which reduces the risk of data breaches and enhances the security of user data. In summary, B-Ride provides a privacy-preserving ride-sharing solution that leverages the power of public blockchain technology. The proposed system addresses the shortcomings of traditional ride-sharing platforms by offering a decentralized, transparent, and secure platform that prioritizes user privacy.
Keywords: Blockchain; decentralization; encryption; peer-to-peer network; ridesharing; intermediaries; public blockchain; etc.
