Blockchain-Based Digital Voting Systems: Security and Usability Analysis
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Abstract
Blockchain-based digital voting systems have emerged as a promising solution to enhance the security, transparency, and accessibility of voting processes. By leveraging distributed ledger technology, these systems aim to mitigate various challenges associated with traditional voting methods, such as fraud, manipulation, and logistical complexities. However, the adoption of blockchain in voting introduces both security and usability considerations that must be carefully evaluated. In this paper, we conduct a comprehensive analysis of blockchain-based digital voting systems, focusing on their security and usability aspects. We examine the underlying cryptographic mechanisms, consensus protocols, and smart contract implementations to assess their resilience against potential attacks and vulnerabilities. Additionally, we investigate the user experience, accessibility, and scalability of these systems to evaluate their usability in real-world voting scenarios. Through this analysis, we aim to provide insights into the strengths, limitations, and trade-offs associated with blockchain-based digital voting systems, facilitating informed decision-making and further research in the field of secure and user-friendly electronic voting technologies.