Overview
The Summer School lectures are subdivided into two parts.
The first part is devoted to a concise and basic description of the most important EM phenomena: wave propagation in free space, inhomogeneous media and guiding structures; properties and characteristic parameters of passive devices, transceivers and antennas. Experimental measurements and introduction to commercial EM solvers are also planned.
The second part of the lecturers is devoted to highlight how the EM phenomena and devices previously reviewed are applied in some of the most advanced wireless systems.
Lecturers, from both academia and ICT industry, will focus on the design criteria, technical features, architectures and innovative aspects directly induced by EM concepts in non-terrestrial networks, 5G mobile communications, wireless power transfer systems, V2X communications, global LEO constellation networks, microwave systems for aerospace and defense. To fully pursue the Summer School goals and provide the most effective outcome, lecturers are selected among academia ( University of Pisa and University of Bologna), ICT industry and international research centers.
On one day of the Summer School week, the lectures will be given at the Marconi’s Museum in Villa Griffone, Pontecchio Marconi (close to Bologna). In the morning, the attendees will have a guided tour of the museum and see some experiments emulating those made by the pioneer of the radio communications (Nobel Prize for Physics, in 1909) in his family country estate in the late XIX century. In the afternoon, two lecturers on WPT (wireless power transfer) systems and RIS (Reconfigurable Intelligent Surfaces) for 6G mobile communications will be given by recognized experts from the University of Bologna. The bus transfer for the round trip to Pontecchio Marconi will be provided by the Summer School organizers.
Students interested to earn the 6 ECTS credits are required to agree with the Summer School coordinators on a Project Work topic, and then submit their written report no later than 30 August 2025 (pdf submission by email to paolo.nepa@unipi.it and andrea.michel@unipi.it).
School Syllabus
Part I: Basic remarks on EM phenomena and devices
- Free-space propagation, ray-based propagation models
- Wave propagation through dielectric media, multipath models
- Wave propagation in guiding structures, lumped-circuit model, printed lines
- Passive devices for advanced wireless systems: characterization and design criteria
- Power dividers, directional couplers, filters
- Antennas for high-frequency wireless links
- Transceivers: modeling and design examples
- EM solvers for the analysis and design of devices and antennas
- Instrumentation for the characterization of wireless network devices
Part II: Microwaves and mm-waves for advanced wireless links
- Non-terrestrial communication networks
- The evolution of terrestrial communication networks toward the fifth generation (5G)
- Wireless sensing and communications in automotive V2X scenarios
- Devices and architectures of systems for wireless power transfer and energy harvesting
- Joint Localization and Communication with Reconfigurable Intelligent Surfaces (RIS)
- Global Low Earth Orbit (LEO) satellite broadband networks
- Microwaves systems for aerospace and defense
[Historical corner]
- “Guglielmo Marconi, the first Italian to be awarded with a Nobel Prize for Physics (1909), in recognition to his contribution to radio communications”: visit to the Marconi Museum in Pontecchio Marconi (nearby Bologna)
Lessons will be held at Polo della memoria San Rossore 1938, via Risorgimento, 56126, Pisa.
The program will be activated also in distance learning mode (TEAMS platform).
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Visit programme websiteProgramme Structure
The second edition of this Summer School aims to introduce the attendees to the building blocks required to understand the basic principles, the implementation strategies and the design criteria of the most common wireless systems operating in the microwaves and mm-waves frequency bands.
An overview of the fundamental electromagnetic (EM) phenomena will be provided and exploited, to describe the most important high-frequency devices of the wireless system physical layer.
The Summer School will support the gain of skills useful to control the EM propagation, thus helping the attendees to face the challenging and ever-evolving specifications of advanced wireless systems.Lecture contents do not require a background in electromagnetics, yet experimental measurements and commercial simulation tools will be used to validate EM basic concepts, as an effective alternative to conventional approaches based only on analytical derivations.
Audience
PhD students, postgraduate students, undergraduate students who are close to getting their degree, practitioners and industry employees, who are involved in Information and Communication Technology (ICT) fields and, more generally, in STEM disciplines..
Check out the full curriculum
Visit programme websiteKey information
Duration
- Full-time
- 6 days
Start dates & application deadlines
- Starting
- Apply before
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Language
Credits
Delivered
Disciplines
Electrical Engineering General Engineering & Technology Communications EngineeringExplore more key information
Visit programme websiteWhat students do after studying
Academic requirements
We are not aware of any specific GRE, GMAT or GPA grading score requirements for this programme.
English requirements
We are not aware of any English requirements for this programme.
Student insurance
Make sure to cover your health, travel, and stay while studying abroad. Even global coverages can miss important items, so make sure your student insurance ticks all the following:
- Additional medical costs (i.e. dental)
- Repatriation, if something happens to you or your family
- Liability
- Home contents and baggage
- Accidents
- Legal aid
We partnered with Aon to provide you with the best affordable student insurance, for a carefree experience away from home.
Get your student insurance nowStarting from €0.53/day, free cancellation any time.
Remember, countries and universities may have specific insurance requirements. To learn more about how student insurance work at University of Pisa and/or in Italy, please visit Student Insurance Portal.
Other requirements
General requirements
Admission Requirements
Bachelor (last year), Master and PhD students, in the field of STEM (Science, Technology, Engineering, Management) disciplines, early stage researchers and practitioners from Academia or Industry.
IMPORTANT NOTICE:
- The Summer School will be activated with at least 6 students
- The maximum number of participants is set to 50 students
- Identity Document (*PASSPORT in case you are a foreign student*)
- Enrolment Form
- Curriculum Vitae
All the documents must be in pdf format, in order to upload them on the portal when required.
Application has to be submitted via Alice portal following the instructions of the "How to apply" page.
Make sure you meet all requirements
Visit programme websiteTuition Fee
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International
250 EUR/fullTuition FeeBased on the tuition of 250 EUR for the full programme during 6 days. -
EU/EEA
250 EUR/fullTuition FeeBased on the tuition of 250 EUR for the full programme during 6 days.
Living costs for Pisa
The living costs include the total expenses per month, covering accommodation, public transportation, utilities (electricity, internet), books and groceries.
Funding
Please write to the coordinator for further details