Designing a Robust Quantum Signature Protocol Based on Quantum Key Distribution for E-Voting Applications

Designing a Robust Quantum Signature Protocol Based on Quantum Key Distribution for E-Voting Applications

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The rapid advancement of internet technology has raised attention to the importance of electronic voting in maintaining democracy and fairness in elections.E-voting refers to the use of electronic technology to facilitate the casting Advanced Wound Care - Silver Dressings and counting of votes in elections.The need for designated verification arises from concerns about voter privacy, auditability, and the prevention of manipulation.

Traditional e-voting systems use cryptographic techniques for security but lack verifiable proof of integrity.Integrating e-voting with a quantum designated verifier could address these challenges by leveraging the principles of quantum mechanics to enhance security and trustworthiness.In light of this, we propose a quantum e-voting scheme Sling Swivel that uses a designated verifier signature.

To ensure the confidentiality and authenticity of the voting process, the scheme uses quantum features like the no-cloning theorem and quantum key distribution.The proposed scheme has security properties like source hiding, non-transferability, and message anonymity.The proposed scheme is resistant to many quantum attacks, such as eavesdropping and impersonation.

Due to designated verification, the scheme minimizes the risk of tempering.This paper provides a detailed description of the proposed scheme and analyzes its security properties.Therefore, the proposed scheme is efficient, practical, and secure.