Authors :
Akash Mali; Abhay Patil; Rajat Mesharam; Shreyash Bagade; N.G.Bhojne
Volume/Issue :
Volume 9 - 2024, Issue 4 - April
Google Scholar :
https://tinyurl.com/bdz36mzh
Scribd :
https://tinyurl.com/9zz9nmd7
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24APR1397
Abstract :
In today's rapidly evolving urban
transportation landscape, the demand for efficient,
decentralized mobility solutions is paramount. This
research presents a comprehensive framework for a
Blockchain-enhanced peer-to-peer transportation
system. Drawing inspiration from various research
papers, four pivotal modules are integrated to ensure a
holistic and efficient approach to mobility. Firstly, the
Blockchain Integration Module enables secure,
transparent, and decentralized transactions, fostering
trust and accountability. Secondly, the User Interface
Module enhances user experience by providing an
intuitive interface tailored to diverse urban settings.
Thirdly, the Computational Module optimizes
transportation aspects such as route planning and
demand forecasting. Lastly, the Ride Allocation Module
orchestrates efficient and equitable ride assignments
based on user preferences and real-time conditions.
Together, these modules offer a resilient and user-centric
peer-to-peer transportation system, leveraging cutting-
edge technologies and insights from existing studies to
transform urban mobility.
Keywords :
Blockchain, Decentralization, Ride Sharing, Peer-to-Peer.
In today's rapidly evolving urban
transportation landscape, the demand for efficient,
decentralized mobility solutions is paramount. This
research presents a comprehensive framework for a
Blockchain-enhanced peer-to-peer transportation
system. Drawing inspiration from various research
papers, four pivotal modules are integrated to ensure a
holistic and efficient approach to mobility. Firstly, the
Blockchain Integration Module enables secure,
transparent, and decentralized transactions, fostering
trust and accountability. Secondly, the User Interface
Module enhances user experience by providing an
intuitive interface tailored to diverse urban settings.
Thirdly, the Computational Module optimizes
transportation aspects such as route planning and
demand forecasting. Lastly, the Ride Allocation Module
orchestrates efficient and equitable ride assignments
based on user preferences and real-time conditions.
Together, these modules offer a resilient and user-centric
peer-to-peer transportation system, leveraging cutting-
edge technologies and insights from existing studies to
transform urban mobility.
Keywords :
Blockchain, Decentralization, Ride Sharing, Peer-to-Peer.