A Blockchain-Powered E-Voting System with SHA-256 Encryption

Abstract

E-voting systems hold promise for revolutionizing the electoral process by offering efficiency, accessibility, and transparency. However, concerns about security and integrity have hindered their widespread adoption. In this research paper, we propose a blockchain-based e-voting system leveraging the SHA-256 algorithm to address these challenges. Our system utilizes blockchain technology to create a tamper-proof and immutable ledger of votes, ensuring transparency and accountability throughout the voting process. The SHA-256 algorithm is employed to secure data integrity, providing robust protection against unauthorized modifications. This paper presents the system architecture, implementation details, and security analysis, demonstrating its resistance to tampering and vulnerabilities. Furthermore, we evaluate the system's performance and usability, highlighting its potential to enhance the electoral process. By leveraging blockchain technology and the SHA-256 algorithm, our e-voting system offers a secure, transparent, and efficient platform for conducting elections, fostering trust and confidence among voters. Keywords: Blockchain-based e-voting system, SHA-256 Algorithm