Tematiche di ricerca | Ricerca per applicazioni

Questa pagina elenca gli argomenti di ricerca che caratterizzano il Programma di Dottorato in Ingegneria Elettrica, Elettronica e delle Comunicazioni. Gli argomenti sono raggruppati qui per Applicazione. Cliccando sul campo di Applicazione d'interesse, verranno presentati tutti gli argomenti di ricerca pertinenti per quella applicazione.

Si prega di notare che lo stesso argomento di ricerca può essere pertinente per più di un campo di applicazione. In alternativa, è possibile sfogliare gli stessi argomenti per Discipline cliccando qui.

M01z: Power Electronics for Power and Energy Conversion

M02a: High-performance antennas based on reflecting or transmitting surfaces

M02c: Design and analysis of radar components and systems

M03a: Big Data Technologies

M03b: Applications of Machine Learning methodologies for both supervised and unsupervised problems

M05a: Design, monitoring and optimization of computer and telecommunication networks

M07b: Signal and Power Integrity

M07z: Electromagnetic Compatibility

M08a: Advanced modeling and simulation of high-frequency devices

M09a: Geo-positioning, navigation systems and remote sensing

M13a: Modeling, design and experimental implementation of digital transmission systems

M13b: Advanced information theory and applications

M13c: Telecommunication Network optimization

M14b: Satellite image processing and analysis

M15j: Multiphysics modeling of photodetectors for infrared cameras

M15x: Silicon photonics integrated devices and circuits

M15z: Modeling, simulation and design of novel photovoltaic devices and materials

M17a: Electrical machines for E-mobility and ultra-efficient energy conversion

M17b: Electrical machines: multiphysics analysis and innovative magnetic materials

M17h: Numerical analysis of magnetostatic and magnetodynamic fields

M18b: Compact low-power electronics for space application sensors

M18c: Design of CMOS monolithic pixel detectors

M19z: Design and experimental characterization of microwave circuits

M20w: Industrial, mobile, cooperative, and service robotics

M20x: Control systems, automation and robotics

M21a: VLSI for digital signal processing

M21b: VLSI architectures for Artificial Intelligence and Machine Learning

M21c: VLSI for secure and cryptographic systems

M21z: System-level design of Systems-on-chip (SoC), FPGAs, and ASICs

 

M01z: Power Electronics for Power and Energy Conversion

M02b: Smart Electromagnetic Skins

M03a: Big Data Technologies

M03b: Applications of Machine Learning methodologies for both supervised and unsupervised problems

M04a: Non-invasive microwave medical diagnostics and imaging

M04b: Brain imaging and brain-computer interface

M04c: Thermal therapies at RF, Microwaves and optics

M07z: Electromagnetic Compatibility

M08a: Advanced modeling and simulation of high-frequency devices

M10c: HW and embedded implementation of ML/AI algorithms for service robotic applications

M11a: Micro- and nanodevices for energy and sustainability

M11b: Micro- and nanobiotechnology

M11d: Nanoelectronics

M11e: Nanocomputing

M11f: Intelligent Systems and IoTs for Biomedical Applications, Precision Agriculture and Climate Change Facing

M12a: Reduced-order, behavioral, surrogate and stochastic modeling

M15y: Modeling portfolio of vertical-cavity surface-emitting lasers

M17g: Human exposure to electromagnetic fields

M17h: Numerical analysis of magnetostatic and magnetodynamic fields

M18a: Integrated front-end electronics for radiation detectors

M18c: Design of CMOS monolithic pixel detectors

M20w: Industrial, mobile, cooperative, and service robotics

M20x: Control systems, automation and robotics

M20y: Computation-enabled design, optimization, and data science

M20z: Complex systems and networks: theory and applications

M21a: VLSI for digital signal processing

M21b: VLSI architectures for Artificial Intelligence and Machine Learning

M21c: VLSI for secure and cryptographic systems

M21e: Environmental sensing for human identification and monitoring

M21z: System-level design of Systems-on-chip (SoC), FPGAs, and ASICs

 

M02c: Design and analysis of radar components and systems

M03a: Big Data Technologies

M03b: Applications of Machine Learning methodologies for both supervised and unsupervised problems

M05a: Design, monitoring and optimization of computer and telecommunication networks

M08a: Advanced modeling and simulation of high-frequency devices

M08b: Noise modeling in devices

M08c: Process variability modeling in devices; variation-aware modeling of devices

M08d: Full-band Monte Carlo simulation of carrier transport in semiconductor materials and devices

M08e: Nonequilibrium Green's function description of carrier transport in nanostructured materials

M09a: Geo-positioning, navigation systems and remote sensing

M13a: Modeling, design and experimental implementation of digital transmission systems

M13b: Advanced information theory and applications

M13c: Telecommunication Network optimization

M14b: Satellite image processing and analysis

M15c: Advanced semiconductor lasers for generation of optical frequency combs

M15j: Multiphysics modeling of photodetectors for infrared cameras

M15x: Silicon photonics integrated devices and circuits

M15y: Modeling portfolio of vertical-cavity surface-emitting lasers

M15z: Modeling, simulation and design of novel photovoltaic devices and materials

M16d: Multi-energy system operation and planning

M17e: Wireless power transfer for E-mobility

M17g: Human exposure to electromagnetic fields

M19e: Nonlinear circuit stability; oscillator noise

M19z: Design and experimental characterization of microwave circuits

M21a: VLSI for digital signal processing

M21b: VLSI architectures for Artificial Intelligence and Machine Learning

M21c: VLSI for secure and cryptographic systems

M21z: System-level design of Systems-on-chip (SoC), FPGAs, and ASICs

 

M02c: Design and analysis of radar components and systems

M02d: Periodic structures with higher symmetries for 5G/6G Communications

M03a: Big Data Technologies

M05a: Design, monitoring and optimization of computer and telecommunication networks

M07b: Signal and Power Integrity

M07z: Electromagnetic Compatibility

M08a: Advanced modeling and simulation of high-frequency devices

M08c: Process variability modeling in devices; variation-aware modeling of devices

M08d: Full-band Monte Carlo simulation of carrier transport in semiconductor materials and devices

M08e: Nonequilibrium Green's function description of carrier transport in nanostructured materials

M09a: Geo-positioning, navigation systems and remote sensing

M11a: Micro- and nanodevices for energy and sustainability

M11b: Micro- and nanobiotechnology

M11d: Nanoelectronics

M11g: Quantum Computing and Technologies

M12a: Reduced-order, behavioral, surrogate and stochastic modeling

M12c: Analytical and numerical techniques for fields, circuits and their interaction

M12e: Nonlinear Dynamics in Bio-Inspired Complex Systems

M12g: Memristor-Based Neural Networks and Machine Learning

M13a: Modeling, design and experimental implementation of digital transmission systems

M13b: Advanced information theory and applications

M13c: Telecommunication Network optimization

M14a: Innovative signal processing for multimedia

M14b: Satellite image processing and analysis

M15c: Advanced semiconductor lasers for generation of optical frequency combs

M15j: Multiphysics modeling of photodetectors for infrared cameras

M15x: Silicon photonics integrated devices and circuits

M16a: Energy transition and security

M16c: Solar photovoltaic and wind power systems for optimal grid integration

M16d: Multi-energy system operation and planning

M19z: Design and experimental characterization of microwave circuits

M21z: System-level design of Systems-on-chip (SoC), FPGAs, and ASIC