Blockchain-Based Economic Voting with Posterior Security from Lattices
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.