Abstract
In recent times, people have seen blockchain technology and are fascinated by its unique qualities of being decentralized and secure. The use of the blockchain technology in ride-sharing service represents a disruptive approach to transactional operations, with the promise of decentralization and increased security. However, the importance of blockchain as a main foundational technology in ridesharing is worth investigating. Its applicability is especially relevant in resolving the centralization and transparency issues that is present in the current ride-sharing services. Blockchain has a distributed ledger that gives customers more control and insight over the transactions, while ride-sharing services benefit from increased confidence and lower the mediator costs.In addition, examining smart contract vulnerabilities is very crucial because they are the mechanisms that promote transactional integrity and user confidence. While useful, the intricacy and automation of smart contracts create significant code-level dangers due to the dynamic nature of ridesharing transactions. Poor validation, exception handling, and logic mistakes in the code can all lead to exploitable flaws, jeopardizing security and reliability.
In this project, we will address the issues by conducting a thorough investigation of the possibility of smart contract vulnerabilities inside the ridesharing ecosystem by deploying a DApp (decentralized application). Through this thorough analysis and testing, we will provide insights and approaches for developers, service providers, and users to improve the safety and dependability of blockchain-based ridesharing systems. Our study aims to increase user confidence, protect system integrity, and improve performance, paving the road for safe and resilient blockchain development and deployments in the ridesharing industry.