What are the main topics or questions that drive your research?

My research focuses on benchmarking state-of-the-art classical Shannon communication and semantic communication systems, and demonstrating the integration of quantum technologies into traditional semantic communication frameworks, paving the way working towards hybrid classical-quantum semantic communication protocols.

What inspired you to pursue your current field of work?

I am driven by the compelling idea of bridging classical communication theory with quantum technologies, and engineering them together to build real-time communication protocols suited for future 6G networks, pushing beyond improvement towards a fundamentally smarter and more efficient way of transmitting information.

What excites you most about being part of CeTI?

Being part of CeTI brings a genuinely interdisciplinary perspective to my research. The close collaboration across engineering sciences and real-world applications is particularly exciting, especially at the physical layer, where I can address computational challenges by pushing beyond classical limits and integrating quantum computing capabilities to achieve outcomes for practical applications.

Which challenge or question has recently sparked your curiosity? 

The question I keep returning to is: how can the current computational capabilities of quantum computers be meaningfully integrated into future communication networks to meet the key performance indicators required for real-world deployment? It sits at a fascinating intersection of hardware constraints, theoretical possibility, and engineering goals.

How do you like to recharge or spend your time outside of work?

Outside of research, I enjoy reading non-fiction, plant-based cooking, and staying active through yoga, hiking, and swimming, a good balance of curiosity and movement that keeps me grounded.