Abstract
The development of a secure, scalable, and private electronic voting system has become increasingly necessary as digital platforms are being widely adopted for elections. Traditional systems face challenges related to security threats, privacy concerns, and transparency issues. To address these, this project aimed to create a university election system that leverages BFV homomorphic encryption to ensure voter privacy and vote integrity. The data for this project was gathered from mock elections, which provided insight into system performance, along with extensive research from academic papers and industry guidelines on secure voting protocols. The system was able to securely conduct elections, keeping sensitive voter data protected throughout the process. The integration of homomorphic encryption proved to be a successful method for maintaining security without compromising usability. The project demonstrated that secure electronic voting can be achieved effectively while providing a user-friendly experience for both administrators and voters.