Dissertation topics suggested by the teacher.
Random access procedure in 5G systems
- Thesis available for both undergraduate and graduate students
Random access procedure for NB-IoT systems
- Thesis available for both undergraduate and graduate students
Physical layer performance modelling
- Thesis available for both undergraduate and graduate students
Digital beamforming for MISO satellite systems
- Thesis available for both undergraduate and graduate students
Multiuser Precoding and clustering in MISO satellite systems
- Thesis available for graduate students
Cooperative Beamforming in Non-GeoStationary (NGSO) satellite systems
- Thesis available for graduate students
Recent dissertations supervised by the teacher.
First cycle degree programmes dissertations
- "Unlocking the Black Box: An Internship Journey in AI Explainability"
- Impatto della compressione audio su algoritmi di deep learning per la classificazione musicale
- Sistemi intelligenti per il monitoraggio acustico delle città: un approccio basato sulle reti neurali convoluzionali.
Second cycle degree programmes dissertations
- A novel approach to Non-Orthogonal Random Access with application to NB-IoT NTN systems
- A study on LDPC AI-based decoding complexity for 6G systems
- Cell Load Balancing in Urban Area Based on Reinforcement Learning
- Future Generation of Railway Localization Techniques based on 5G networks
- Graph-based User Scheduling for MIMO LEO-based Satellite Communication Systems
- Inertial Measurements and Neural network aided enhancements for railway positioning system
- Massive MIMO-based system analysis and comparison with MIMO based-systems
- Neural Network based Non Orthogonal Random Access for 6G NTN-IoT
- Next generation massive access techniques for IoT systems in 6G.
- O3b mPOWER Systems - Aero route modelling
- Performance Analysis of 5G based Positioning in Railway Applications
- Random Access Procedures in 5G IoT via NTN: System level performances
- Sub-meter RTK GNSS for railway localization and signaling
PhD programmes thesis
- NB-IoT via non terrestrial networks
- User scheduling for low earth orbit multi-user multiple-input-multiple-output non-terrestrial network systems