Research Areas
Exploring the theoretical and applied frontiers of decentralized infrastructure through interdisciplinary collaboration.
Decentralized Consensus
Advancing fault-tolerant algorithms for large-scale P2P networks. Our hybrid proof-of-stake/proof-of-space model achieves sub-second finality while maintaining decentralization.
Quantum-Resistant Algorithms
Researching post-quantum cryptographic solutions that maintain compatibility with current infrastructures without compromising performance.
Sustainable Computing
Developing energy optimization frameworks for blockchain and P2P networks, reducing computational waste by up to 73% while maintaining throughput.
Recent Publications
A comprehensive analysis of post-quantum consensus protocols for large-scale decentralized networks.
Presents our novel energy tracking framework for decentralized infrastructure. Achieves 87% reduction in computational waste.