Insegnamento
5G SYSTEMS - SISTEMI 5G
INP6075463, A.A. 2017/18

Principali informazioni sull'insegnamento
Corso di studio Corso di laurea magistrale in
ICT FOR INTERNET AND MULTIMEDIA - INGEGNERIA PER LE COMUNICAZIONI MULTIMEDIALI E INTERNET
IN2371, ordinamento 2017/18, A.A. 2017/18
1164178
Curriculum PHOTONICS [003PD]
Crediti formativi 6.0
Denominazione inglese 5G SYSTEMS
Dipartimento di riferimento Dipartimento di Ingegneria dell'Informazione (DEI)
Obbligo di frequenza No
Lingua di erogazione INGLESE
Sede PADOVA

Docenti
Responsabile STEFANO TOMASIN ING-INF/03

Mutuante
Codice Insegnamento Responsabile Corso
INP6075463 5G SYSTEMS - SISTEMI 5G STEFANO TOMASIN IN2371

Dettaglio crediti formativi
Tipologia Ambito Disciplinare Settore Scientifico-Disciplinare Crediti
CARATTERIZZANTE Ingegneria delle telecomunicazioni ING-INF/03 6.0

Modalità di erogazione
Periodo di erogazione Primo semestre
Anno di corso I Anno
Modalità di erogazione frontale

Organizzazione della didattica
Tipo ore Crediti Ore di
Corso
Ore Studio
Individuale
Turni
LEZIONE 6.0 48 102.0 Nessun turno

Calendario
Inizio attività didattiche 25/09/2017
Fine attività didattiche 19/01/2018

Syllabus
Prerequisiti: Basics of communications, networking and signal processing techniques.
Conoscenze e abilita' da acquisire: The course will provide advanced information on essential technologies for next generation of cellular wireless systems.
Modalita' di esame: Writing of a short report on an assigned topic. Discussion of the report and questions on the contents of the course.
Criteri di valutazione: The understanding of communications techniques and the design criteria will be assessed for evaluation.
Contenuti: The course will include two parts:

1. A general description of forthcoming 5G communication standard, and
2. A detailed analysis of two key technologies: OFDM and MIMO

For the first part we will see the evolution of mobile wireless systems up to the 4th generation, the objectives of 5G systems, and then we will have an overview phyisical layer (filterbanks, massive MIMO), medium access (mm-wave, OFDMA) and network solutions (small cells/cloud networking).

The second part will focus on the the orthogonal frequency division multiplexing (OFDM) and multiple input multiple output (MIMO) systems. Various issues will be addressed, including design of OFDM systems, channel estimation, resource allocation. About MIMO, concepts of diversity and multiplexing will be investigated. Decoding techniques for MIMO systems will be discussed, including sphere decoder, interference cancellation. Channel models currently used in standard development for MIMO systems will also be presented. Lastly, multiuser MIMO in cellular system will be studied.
Attivita' di apprendimento previste e metodologie di insegnamento: Frontal lessons.
The course will include lessons from foreign experts coming both from universities and industries.
During the course it will be organized a visit to a telecommunication industry operating in the market of cellular systems.
There will be also practical lessons with hands on software define radio equipment and simulation tools.
Eventuali indicazioni sui materiali di studio:
Testi di riferimento:
  • Y. S. Cho, J. Kim, W. Y. Yang, C. G. Kang,, MIMO-OFDM wireless communications with MATLAB.. --: Wiley, --. Cerca nel catalogo
  • Jonathan Rodriguez, Fundamentals of 5G Mobile Networks. --: Wiley, --. Cerca nel catalogo