Recent Papers

In current democratic frameworks, the authenticity of electoral processes relies substantially onresilient, transparent and inclusive voting systems. Conventional voting methodsboth analogand digital systemshave consistently faced barriers like ballot tampering, voter impersonation,and incapacity to perform time-sensitive audits. Blockchain technology, with its distributed andtamper-proof database, offers a feasible solution to many of these hurdles. However, large-scaleexecution of blockchain in electoral systems remains restricted due to limitations such as highfinancial and technological thresholds compounded by restricted operational framework inemerging economies.This thesis intends to configure a blended electronic voting system that integrates theaccountability of blockchain fundamentals with the feasibility and expandability of advancedcloud-based infrastructure. The purpose is to tackle the security vulnerabilities in prevailing andblockchain-only voting systems by presenting an approach that is both equitable and verifiable,even for mass-scale electoral procedures.The suggested framework incorporates Firebase for reliable user authentication and votemanagement, leveraging Firebase as the live data repository for maintaining encrypted voterecords. The frontend is constructed using HTML, Bootstrap, and JavaScript, whereas Chart.js isutilized to present dynamic data visuals of voting findings The comprehensive structure isdeveloped to be streamlined, accessible and scalable for each preliminary elections and potentialwide-ranging executions.Exploratory testing of the beta model illustrates that the blended architecture can provide areliable and authentic voting procedure with considerably less performance cost contrasted to fullblockchain-based models. It preserves vote integrity, enables verifiable results, and assureseffortless access through an intuitive interface. By eliminating the high-resource demand oftraditional blockchain networks, this strategy offers a more feasible route for practicalimplementation. Upcoming improvements will include incorporating smart contracts on testnetblockchain networks for enhanced distribution, and building a User interface using Flutter toenhance usability for an expanded audience.

Copyright © 2025 Vinay Saurabh. This is an open access article distributed under the Creative Commons Attribution License.