Research
Cyber-physical and Real-Time Systems
The main focus of my research is the design and implementation of predictable systems. On Wireless Sensor Networks, I have worked on clock synchronization schemes and delay compensation algorithms based on control theory. More in general, on Real-Time Systems, I have worked on the design of feedback-based scheduling algorithms.
Selected publications
- Papadopoulos et al. AdaptMC: A Control-Theoretic Approach for Achieving Resilience in Mixed-Criticality Systems
- Leva et al. High-Precision Low-Power Wireless Nodes’ Synchronization via Decentralized Control. IEEE Transactions On Control Systems Technology, 2016.
- Terraneo et al. Reverse Flooding: exploiting radio interference for efficient propagation delay compensation in WSN clock synchronization. In Proceedings of the 36th IEEE Real-Time Systems Symposium, 2015.
- Terraneo et al. FLOPSYNC-2: efficient monotonic clock synchronisation. In Proceedings of the 35th IEEE Real-Time Systems Symposium, 2014.
- Papadopoulos et al. Hard Real-Time Guarantees in Feedback-based Resource Reservations. Real-Time Systems, 2015.
Main collaborators
- Alberto Leva (Politecnico di Milano, Italy)
- Martina Maggio (Saarland University, Germany/Lund University, Sweden)
- Enrico Bini (University of Turin, Italy)
- Daniel Mosse (University of Pittsburgh, USA)
- Sanjoy Baruah (University of Washington in St. Louis, USA)