Decentralized Voting Application Using Blockchain

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The emergence of blockchain technology has paved the way for innovative solutions in various domains, particularly in enhancing democratic processes. This research paper presents the design, development, and evaluation of a Web3 blockchain decentralized voting application (DAPP) built using React JS for frontend development and Solidity for smart contract implementation. The objective of this study is to explore the feasibility and effectiveness of employing blockchain technology to create a secure, transparent, and decentralized voting system. The proposed DAPP leverages the immutability and transparency features of blockchain technology to ensure the integrity of the voting process. Smart contracts coded in Solidity are utilized to execute the voting mechanism, ensuring tamper-proof recording and tallying of votes. React JS, a popular JavaScript library for building user interfaces, is employed to develop an intuitive and user-friendly frontend interface, enhancing accessibility and usability for voters. Key aspects addressed in this research include the architecture of the DAPP, the design of smart contracts for voting logic, integration of React JS components for frontend development, and security considerations to prevent vulnerabilities and attacks. Additionally, the paper discusses the implications of decentralized voting systems on democracy, including increased trust, transparency, and participation.