Ritratto di stefano.pisa@uniroma1.it

Informazioni generali /  General information

Per organizzare un ricevimento (con Google-Meet), per favore mandare una mail a stefano.pisa@uniroma1.it

 

To plan a meeting (via Google-Meet), please send a mail to stefano.pisa@uniroma1.it

 

-------------------- Informazioni relative ai singoli corsi impartiti dal docente --------------------


A.A. 2023-24 Radiofrequency Electronic Systems

 

The lessons of the Radiofrequency Electronic Systems course will begin from February 26, 2024. The course will be held in presence. The Timetable and the teaching material will be available on Google Classroom (code eoif6c7). Interested students are invited to register.

 

A.A. 2023-24 Strumentazione e Tecniche per la Diagnostica

Le lezioni di Strumentazione e Tecniche per la Diagnostica si terranno in presenza a partire dal 26 Febbraio 2024.

Gli orari e il materiale didattico saranno disponibili su Google Classroom (codice aflc2yz). Gli studenti interessati sono invitati a registrarsi.

 

 

A.A. 2023-24 Laboratorio Multidisciplinare di Elettronica I

Le lezioni del corso di "Laboratorio Multidisciplinare di Elettronica I"
inizieranno a partire dal 27 settembre 2023 con il seguente orario:
 

Mercoledì 27/09 - 14.30 - 18.00  Aula 10 - RM018  PISA
Giovedì    28/09 14.30 - 18.00  Aula 10 - RM018  MOSTACCI
Mercoledì  4/10 -  14.30 - 18.80  Aula 10 - RM018  PISA
Giovedì      5/10 14.30 - 18.00  Aula 10 - RM018  MOSTACCI
Mercoledì 11/10 - 14.30 - 18.00  Aula 10 - RM018  PISA
Giovedì     12/10 - 14.30 -18.00   Aula 10 - RM018  MOSTACCI

 

Iscriviti alla Google-Classroom utilizzando la mail istituzionale (@studenti.uniroma1.it).

Utilizza  il codice classe  tpkiom7

 

A.A. 2023-24 Multidisciplinary Laboratori of Electronics  I
The lessons of the "Multidisciplinary Laboratory of Electronics I"

course will begin from 27 September 2023 with the following timetable:

 

Mercoledì 27/09 - 14.30 -18.00   Aula 8 - RM018  MOSTACCI
Giovedì    28/09  -  14.30 -18.00  Aula 8 - RM018  PISA
Mercoledì  4/10  -  14.30 -18.80  Aula 8 - RM018  MOSTACCI
Giovedì     5/10  -   14.30 -18.00 Aula 8 - RM018  PISA
Mercoledì 11/10 - 14.30 -18.00   Aula 8 - RM018  MOSTACCI
Giovedì    12/10  -  14.30 -18.00  Aula 8 - RM018  PISA

 

Sign up for the Google-Classroom using the institutional email (@studenti.uniroma1.it).

Use the p6yj7b4 class code

 

 

A.A. 2022-23 Radiofrequency Electronic Systems

The lessons of the Radiofrequency Electronic Systems course will be held in presence with the timetable reported in the Google Classroom

 

https://classroom.google.com/c/NTkxOTM4MzUyODQ2?cjc=mkw5ghj

 

All students who want to take the course are asked to register in the Google classroom

 

A.A. 2021-22 Strumentazione e Tecniche per la Diagnostica

Le lezioni di Strumentazione e Tecniche per la Diagnostica si terranno in presenza con l'orario riportato nella Google Classroom

 

https://classroom.google.com/c/NTkxOTQxMDkyMjY0?cjc=3nrdmp5

 

Tutti gli studenti che vogliono seguire il corso sono pregati di iscriversi alla Google classroom

 

 

 

A.A. 2022-23 Laboratorio Multidisciplinare di Elettronica I

Le lezioni del corso di "Laboratorio Multidisciplinare di Elettronica I" inizieranno con una settimana di ritardo a partire dal 28 settembre 2022. A breve saranno comunicati l'orario e le aule.
 
Link per la classe (link di invito) - studenti italiani
 
Laboratorio Multidisciplinare di Elettronica I
Orari per le prime 3 settimane
 
Mercoledì 28/09 - 14.30 -18.30.  Aula 9 - RM018
Giovedì 29/09 -    14.30 -18.30.  Aula 3 - RM018
Mercoledì  5/10 -  14.30 -18.30.  Aula 9 - RM018
Giovedì  6/10 -      14.30 -18.30.  Aula 3 - RM018
Mercoledì  12/10 - 14.30 -18.30.  Aula 9 - RM018
Giovedì   13/10 -    14.30 -18.30.  Aula 3 - RM018

 

A.A. 2022-23 Multidisciplinary laboratory of electronics I

The lessons of the "Multidisciplinary Electronics Laboratory I" course will begin one week late starting from 28 September 2022. The time and classrooms will be announced shortly
 
Link for the class (invitation link) - MDEE
 
Multidisciplinary Laboratory of Electronics  I
Timetables for the first 3 weeks
 

Wednesday 28/09 - 14.30 -18.30. Room  1B1 - RM002
Thursday 29/09 - 14.30 -18.30. SBAI seminar room - RM004
Wednesday 5/10 - 14.30 -18.30. Room   1B1 - RM002
Thursday 6/10 - 14.30 -18.30.  SBAI seminar room - RM004
Wednesday 12/10 - 14.30 -18.30.  SBAI seminar room - RM004
Thursday 13/10 - 14.30 -18.30.  SBAI seminar room - RM004

 

A.A. 2021-22 Radiofrequency Electronic Systems

The lessons of the Radiofrequency Electronic Systems course will be held in presence with the timetable reported in the Google Classroom

https://classroom.google.com/c/NDYxODU0MjgwMzU0?cjc=swx24tk

 

these are the indications of the University:

the lessons of all study courses will be held in  presence for 100% of the places usable for each classroom using the reservation mechanism with the PRODIGIT system which will no longer make distinctions on the matriculation number, as indicated by the resolution of the Academic Senate of 12 October 2021


"Also guaranteeing remote access to allow the participation of students who will not be able to secure a place in the classroom and / or those who for health reasons will not be able to participate in face-to-face activities." (resolution S.A. of 12 October 2022)

 

in these cases it will be possible to follow the lessons remotely by connecting to the link provided by the teacher

 

All students who want to take the course are asked to register in the Google classroom

 

A.A. 2021-22 Strumentazione e Tecniche per la Diagnostica

Le lezioni di Strumentazione e Tecniche per la Diagnostica si terranno in presenza con l'orario riportato nella Google Classroom

https://classroom.google.com/c/NDcwMTg1NzQ1NDc0?cjc=b4akiek

 

queste sono le indicazioni dell'Ateneo:
 
le lezioni di tutti i corsi di studio saranno svolte in presenza nella misura del 100% dei posti utilizzabili per ciascuna aula utilizzando il meccanismo di prenotazione con il sistema PRODIGIT che non farà più distinzioni sul numero di matricola, come indicato dalla delibera del Senato Accademico del 12 ottobre 2021 che vi allego, inoltre 

 

“garantendo anche la fruizione a distanza per consentire la partecipazione delle studentesse e degli studenti che non potranno assicurarsi un posto in aula e/o a coloro che per motivi sanitari non potranno partecipare alle attività in presenza.” (delibera S.A. del 12 ottobre 2022)
 

in questi casi sarà possibile seguire le lezioni da remoto collegandosi al link fornito dal docente

 

 

Tutti gli studenti che vogliono seguire il corso sono pregati di iscriversi alla Google classroom

 

 

 

 

 

 

 

 
 
Insegnamento Codice Anno Corso - Frequentare Bacheca
RADIOFREQUENCY ELECTRONIC SYSTEMS 10589483 2023/2024
STRUMENTAZIONE E TECNICHE PER LA DIAGNOSTICA 1042021 2023/2024
LABORATORIO MULTISCIPLINARE DI ELETTRONICA 10600538 2023/2024
STRUMENTAZIONE E TECNICHE PER LA DIAGNOSTICA 1042021 2022/2023
RADIOFREQUENCY ELECTRONIC SYSTEMS 10589483 2022/2023
LABORATORIO MULTISCIPLINARE DI ELETTRONICA 10600538 2022/2023
STRUMENTAZIONE E TECNICHE PER LA DIAGNOSTICA 1042021 2021/2022
RADIOFREQUENCY ELECTRONIC SYSTEMS 10589483 2021/2022
LABORATORIO MULTIDISCIPLINARE DI ELETTRONICA 1042008 2021/2022
STRUMENTAZIONE E TECNICHE PER LA DIAGNOSTICA 1042021 2020/2021
RADIOFREQUENCY ELECTRONIC SYSTEMS 10589483 2020/2021
LABORATORIO MULTIDISCIPLINARE DI ELETTRONICA 1042008 2020/2021
RADIOFREQUENCY ELECTRONIC SYSTEMS 10589483 2019/2020
STRUMENTAZIONE E TECNICHE PER LA DIAGNOSTICA 1042021 2019/2020
LABORATORIO MULTIDISCIPLINARE DI ELETTRONICA 1042008 2019/2020
STRUMENTAZIONE E TECNICHE PER LA DIAGNOSTICA 1042021 2018/2019
RADIOFREQUENCY ELECTRONIC SYSTEMS 10589483 2018/2019
STRUMENTAZIONE E TECNICHE PER LA DIAGNOSTICA 1042021 2017/2018
SISTEMI ELETTRONICI A RADIOFREQUENZA 1042019 2017/2018
LABORATORIO MULTIDISCIPLINARE DI ELETTRONICA 1042008 2017/2018
STRUMENTAZIONE E TECNICHE PER LA DIAGNOSTICA 1042021 2016/2017
SISTEMI ELETTRONICI A RADIOFREQUENZA 1042019 2016/2017
LABORATORIO MULTIDISCIPLINARE DI ELETTRONICA 1042008 2016/2017

Lunedì-Venerdì - Ore 9:30-18:00 previo contatto telefonico

Stefano Pisa was born in Rome, Italy, in 1957. He received the Electronic Engineering and Ph.D. degrees from the University of Rome La Sapienza , Rome, Italy, in 1985 and 1988, respectively. In 1989 he joined the Department of Electronic Engineering, University of Rome La Sapienza as a Researcher. Since 2001, he has been an Associate Professor with the same University.
Stefano Pisa has carried out the following research and coordination activities:
From 1993 to 1995 he was Secretary of the Ursi Commission K (Electromagnetics in Biology and Medicine) and he was the Editor of the Disk of Complete References 1993-1995 published at the 25th URSI General Assembly.
From 1995 to 1996, he was the coordinator of a working package on "Electromagnetic Environment Impact and Safety Issues", of the Italian project on "Wide Band Wireless Local Area Networks - WWLAN" of the Italian Research Council (CNR).
From 1995 to 1999, he was a member of the Joint Working Group (JWG) 15 on "Measurement Techniques and Procedures for High-Frequency EM Fields With Regard to Human Exposure in the Frequency Range 10 kHz - 300 GHz" organized by International Electrotecnical Commission (IEC).
From 1995 to 2002, he was secretary of the IEEE Microwave Theory and Techniques Society (MTT-S)/Antennas and Propagation Society (AP-S) Central and South Italy Section Joint Chapter.
From 1997 to 1999, he was the coordinator of the working package Survey on Existing Dosimetric Work and Development of a Database in the framework of the European project Cellular Phones Standard (CEPHOS).
From 2001 to 2004 he was the coordinator of the activity Development and Optimization of Dedicated Software for the Evaluation of SAR in Subjects Exposed to Mobile Telecommunication Systems of the Italian National Project MIUR/CNR-ENEA founded by the Ministry for Education, University, and Research, and devoted to the protection of people and environment from EM emissions.
From 2005 to 2008 he was Consulting Member of the Scientific Committee on Physics and Engineering" of the "International Commission on Non-Ionizing Radiation Protection" (ICNIRP) and he has taken part to the preparation of the document "ICNIRP Statement on EMF-emitting New Technologies".
From 2009 to 2013 he was Member of the Program Committee of the Dutch project ZonMw Electromagnetic Fields and Health (EMF&H) .
From 2011 to 2012 he was prime contractor of a project of Agenzia Spaziale Italiana (ASI) - Call for Ideas 2008 "Biotechnology for Human Space Exploration". Title: Non Invasive Monitoring by Ultra-Wide Band Radar of Respiratory Activity of People inside a Spatial Environment (NIMURRA).
From 2012 to 2013 he was Coordinator of two working packages (Innovative UWB Radar Design, Innovative UWB radar sensor Integration) of a project of European Space Agency (ESA) Title: Telemedicine Satellite Services for Healthcare Professional Network (KosmoMed).
From 2017 to 2020 he was Coordinator of a working package of a "progetto di ricerca di rilevante interesse nazionale (PRIN)" dal titolo: U-VIEW (Ultra-wideband Virtual Imaging Extra Wall for high-penetration high quality imagery of enclosed structures) devoted to the development of a Through the wall Radar imaging system.
From 2017 to 2020 he was a Reviewers of the European project Integrated Smart spatial Exploration System (INSPEX) H2020, devoted to the realization of a white cane equipped with UWB radar, sonar and LIDAR sensors.
Since 2018 he was Coordinator of the working package: SAR Instrument technology, of the project: "Micro-Satellite Clusters II (MIRACLE)" of the European Defence Agency (EDA).
Stefano Pisa is a member of the Editorial Board of various International Journals. He has authored over 180 scientific papers. He was the Chairman of various Sessions at International Congress.
Prof. Pisa is a Senior member of the IEEE Microwave Theory and Techniques Society, a Senior Member of the International Union of Radio Science (URSI) and a member of the Italian Society of Electromagnetics (SIEm).
His research interests are the interaction between electromagnetic fields and biological systems, therapeutic and diagnostic applications of electromagnetic fields, medical applications of radar, and the modeling and design of microwave circuits.