Electronic voting has demonstrated that it streamlines the democratic process, making it more convenient for citizens and enhancing the accuracy and speed of election results in real-world scenarios in the US, Estonia, Switzerland, and many other countries. One major challenge for e-voting, especially online voting, is ensuring that voting and tallying devices behave honestly, particularly in cases involving monetary transactions. These are addressed by economic voting, where everything is on-chain; in essence, voters utilize smart contracts to conduct all voting stages. There are very few results on economic voting, and none post-quantum secure. The challenge comes from having the entire voting system run by smart contracts. In this work, we propose the first post-quantum economic voting scheme, which combines hybrid on- and off-chain operations, called the Post-Quantum Blind Vote (PQBV). The core idea is to utilize smart contracts that enable blind signatures during the voting process. We enhance our contribution by introducing a post-quantum blind signature with Posterior Security, as proposed by Yuen et al. (CCS 2025), which retroactively enhances the privacy of already generated signatures. This has a significant impact on PQBV, as it is able to satisfy formal cryptographic privacy definitions, including ballot privacy. Our efficiency analysis reveals competitive performance compared to existing state-of-the-art post-quantum e-voting systems, such as Epoque (EuroS&P 2021), which is done without blockchain.

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Blockchain-Based Economic Voting with Posterior Security from Lattices

  • Navid Abapour,
  • Amir Goharshady,
  • Catalin Dragan,
  • Mahdi Mahdavi

摘要

Electronic voting has demonstrated that it streamlines the democratic process, making it more convenient for citizens and enhancing the accuracy and speed of election results in real-world scenarios in the US, Estonia, Switzerland, and many other countries. One major challenge for e-voting, especially online voting, is ensuring that voting and tallying devices behave honestly, particularly in cases involving monetary transactions. These are addressed by economic voting, where everything is on-chain; in essence, voters utilize smart contracts to conduct all voting stages. There are very few results on economic voting, and none post-quantum secure. The challenge comes from having the entire voting system run by smart contracts. In this work, we propose the first post-quantum economic voting scheme, which combines hybrid on- and off-chain operations, called the Post-Quantum Blind Vote (PQBV). The core idea is to utilize smart contracts that enable blind signatures during the voting process. We enhance our contribution by introducing a post-quantum blind signature with Posterior Security, as proposed by Yuen et al. (CCS 2025), which retroactively enhances the privacy of already generated signatures. This has a significant impact on PQBV, as it is able to satisfy formal cryptographic privacy definitions, including ballot privacy. Our efficiency analysis reveals competitive performance compared to existing state-of-the-art post-quantum e-voting systems, such as Epoque (EuroS&P 2021), which is done without blockchain.