<p>An empirically verified blockchain-based voting system is presented in this work that greatly enhances performance, including a 45% increase in transaction throughput and a 38.1% drop in latency. These findings show that medium-scale elections might be reliably supported by the suggested structure. In addition to providing verifiable audit trails and adaptive security monitoring, the system uses mathematically based encryption techniques to guarantee voter anonymity. The platform demonstrates that safe and transparent digital elections are possible in a permissioned blockchain environment by fusing deterministic chaincode execution, encrypted ballot processing, and end-to-end system monitoring. In addition to providing a solid operational foundation, the system provides a clear route for future iterations that include more sophisticated cryptographic guarantees, improved scalability, and formal regulatory compliance. By demonstrating how blockchain technology, when combined with stringent security regulations and sensible system design, enables safe, transparent, and verifiable election processes, our work promotes digital democracy.</p>

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An Extended Formal Framework for Blockchain-Based Voting Systems with Advanced Cryptographic and Performance Enhancements

  • MD. Mohimul Alam,
  • Shazneen Islam Akhi,
  • Md. Ataur Rahman,
  • Jubaida Nur Jumana,
  • Shannidhay Lala Ghosh,
  • Rifat Ara Rouf,
  • Mahady Hasan

摘要

An empirically verified blockchain-based voting system is presented in this work that greatly enhances performance, including a 45% increase in transaction throughput and a 38.1% drop in latency. These findings show that medium-scale elections might be reliably supported by the suggested structure. In addition to providing verifiable audit trails and adaptive security monitoring, the system uses mathematically based encryption techniques to guarantee voter anonymity. The platform demonstrates that safe and transparent digital elections are possible in a permissioned blockchain environment by fusing deterministic chaincode execution, encrypted ballot processing, and end-to-end system monitoring. In addition to providing a solid operational foundation, the system provides a clear route for future iterations that include more sophisticated cryptographic guarantees, improved scalability, and formal regulatory compliance. By demonstrating how blockchain technology, when combined with stringent security regulations and sensible system design, enables safe, transparent, and verifiable election processes, our work promotes digital democracy.