To address longstanding challenges in ensuring security, transparency, and adaptability in electronic voting frameworks, this approach proposes a blockchain-based electronic voting framework design with three key modules: The Voter Module, the Election Commission Module, and The Candidate Module. By leveraging blockchain innovation, the framework guarantees a decentralized and tamper-proof voting enhances the security and effectiveness of national decisions while essentially diminishing costs. Progressed encryption algorithms like AES and RSA are employed to safeguard sensitive data, ensuring secure authentication and data transmission throughout the process. The Voter Module enables secure registration and identity verification, including face authentication, to prevent unauthorized access. The Election Commission Module oversees the creation, management, and monitoring of elections, whereas keeping up the judgement of the blockchain record. The Candidate Module encourages secure candidate registration and guarantees reasonable cooperation. The framework also underpins secure farther voting, making races more available to those incapables to visit surveying stations. By automating and enforcing election regulations, reducing susceptibility to fraud and human error, and offering robust protection against cyberattacks, this architecture has the potential to revolutionize election processes by increasing public trust, accessibility, and engagement in democratic systems.

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Secure Voting System: Blockchain and AES-RSA Integration

  • Lanka Naga Venkata Eswara Sastry,
  • Tanikella Hari Gayatri,
  • D. Geethanjali,
  • N. Umashankari

摘要

To address longstanding challenges in ensuring security, transparency, and adaptability in electronic voting frameworks, this approach proposes a blockchain-based electronic voting framework design with three key modules: The Voter Module, the Election Commission Module, and The Candidate Module. By leveraging blockchain innovation, the framework guarantees a decentralized and tamper-proof voting enhances the security and effectiveness of national decisions while essentially diminishing costs. Progressed encryption algorithms like AES and RSA are employed to safeguard sensitive data, ensuring secure authentication and data transmission throughout the process. The Voter Module enables secure registration and identity verification, including face authentication, to prevent unauthorized access. The Election Commission Module oversees the creation, management, and monitoring of elections, whereas keeping up the judgement of the blockchain record. The Candidate Module encourages secure candidate registration and guarantees reasonable cooperation. The framework also underpins secure farther voting, making races more available to those incapables to visit surveying stations. By automating and enforcing election regulations, reducing susceptibility to fraud and human error, and offering robust protection against cyberattacks, this architecture has the potential to revolutionize election processes by increasing public trust, accessibility, and engagement in democratic systems.