Explores e-voting research, digital algorithms, privacy challenges, and cryptographic methods in ensuring legitimacy and participation.
Explores technologies for identity and anonymity, including e-ID, social media identities, and cryptographic signatures.
Explores motivations for anonymous communication and various approaches to achieve anonymity.
Explores homomorphic encryption, enabling secure computations on encrypted data without data exposure, with applications in healthcare and finance.
Explores the security and verifiability of digital voting systems, including in-person and remote e-voting, focusing on protection against tampering and ballot counting efficiency.
Explores anonymous communication systems, attribute-based credentials, the Tor network, and other privacy technologies.
Covers anonymous authorization, zero-knowledge proofs, attribute-based credentials, and practical issues in anonymous authentication.
Delves into quantifying anonymity, naive approaches, DC-networks, and resolving collisions.
Explores electronic voting processes, approaches, and technologies, emphasizing integrity, fairness, and transparency in voting systems.
Explores challenges and solutions in decentralized e-voting systems, emphasizing integrity, privacy, and coercion resistance.
