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Course
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Credits
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Scientific Disciplinary Sector Code
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Contact Hours
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Exercise Hours
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Laboratory Hours
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Personal Study Hours
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Type of Activity
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Language
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20801985 -
ELEMENTS OF ELECTRONIC MEASUREMENTS
(objectives)
construction of a critical attitude knowingly instrumental in checking of mathematical models of reality, with emphasis on uncertainty of measurement.
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CACIOTTA MAURIZIO
( syllabus)
SEZIONE 1 : GRANDEZZE - STRUMENTAZIONE E TEORIA RAPPRESENTAZIONALE
SEZIONE 2 : TRASDUTTORI - CLASSIFICAZIONE DELLA STRUMENTAZIONE ELETTROMECCANICA - MOTO DELL'EQUIPAGGIO MOBILE
SEZIONE 3 : STRUMENTI MAGNETO ELETTRICI - STRUMENTI ELETTRODINAMICI
SEZIONE 4 : STRUMENTI AD INDUZIONE - STRUMENTI TERMICI - PROBE - STADI DI INGRESSO
SEZIONE 5 : HIGH QUALITY GROUND E DIGITAL GROUND - OSCILLOSCOPIO (CRT, DEFLESSIONE)
SEZIONE 6 : OSCILLOSCOPIO (ALIMENTATORE, CANALE VERTICALE, TRIGGER)
SEZIONE 7 : OSCILLOSCOPIO (CANALE ORIZZONTALE) - VOLTMETRI
SEZIONE 8 : PHASE LOCKED LOOP - STRUMENTAZIONE P.L.L.
SEZIONE 9 : GENERALITÀ SUL CAMPIONAMENTO - MAGGIORANTE DI HELMS E THOMAS - OSCILLOSCOPI CAMPIONATORI
SEZIONE 10 : GENERALITÀ SULLA STRUMENTAZIONE DIGITALE - COMPARATORI ANALOGICI - MULTIPLEXER ANALOGICI - DEMULTIPLEXER DIGITALI
SEZIONE 11 : CONVERSIONE A/D A COINCIDENZA
SEZIONE 12 : CONVERSIONE D/A - CONVERSIONE A/D A CONFRONTO DIRETTO - ANALISI IN FREQUENZA DEI CONVERTITORI A/D - OSCILLOSCOPI DIGITALI
( reference books)
DISPENSE A CURA DEL DOCENTE
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6
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ING-INF/07
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48
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-
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-
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-
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Core compulsory activities
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ITA |
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20802015 -
TRAINING
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| 3
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-
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-
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-
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-
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Other activities
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| 3
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-
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-
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Other activities
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ITA |
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20801976 -
FINAL EXAM
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| 3
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-
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-
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Per la prova finale e la lingua straniera (art.10, comma 5, lettera c)
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| 3
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-
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-
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-
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Per la prova finale e la lingua straniera (art.10, comma 5, lettera c)
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ITA |
Optional group:
comune Orientamento unico A SCELTA STUDENTE - (show)
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21
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20801995 -
HEALTH MANAGEMENT SYSTEMS
(objectives)
THE COURSE OBJECTIVE IS TO LET THE STUDENT OBTAIN COMPETENCES ON: THE ISSUES RELATED TO THE ACQUISITION AND MANAGEMENT OF BIOMEDICAL EQUIPMENT, AND OF RELEVANT DATA IN THE MANAGEMENT OF HEALTH SYSTEMS; INFORMATION SYSTEMS (ACCOUNTING, MAINTENANCE MANAGEMENT ETC..); TODAY'S STANDARDS ON STORAGE AND TRANSMISSION OF MEDICAL DATA. AT THE END OF THE COURSE, IT IS PREDICTED THAT THE STUDENT WILL ALSO MASTER PROBABILITY MODELS ASSOCIATED TO THE MAINTENANCE OF BIOMEDICAL EQUIPMENT.
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SCHMID MAURIZIO
( syllabus)
Clinical engineering: glossary of terms; definition and classification of medical devices; national and international outlook of clinical engineering; clinical engineering competences.
Specifications of a selection of medical devices: reading, comprehension and writing of the technical specifications.
Management and maintenance of medical devices: inventory, national classification of medical devices (CND); global medical device nomenclature (GMDN). Entity-relationship diagram models.
Probability theory fundamentals for the maintenance of medical devices: reliability and availability; failure rate, and other relevant indicators: costs and times; maintenance strategies, roles and duties.
Life Cycle Cost Analysis (LCCA) in the healthcare sector; health technology assessment: indicators of clinical efficacy (QALY, DALY); economic burden.
Regulations in the healthcare sector (national level), and comparison at the international level; WHO directives and recommendations. Bismarck-Beveridge and mixed models.
Efficiency of a healthcare structure: indicators for outpatients and inpatients; hospital environment: risk evaluation and minimization; relevant indicators.
( reference books)
Slides, exercises and other material freely available for students at http://biolab.uniroma3.it or on the University moodle platform.
Further readings:
- C. LAMBERTI, W. RAINER. LE APPARECCHIATURE BIOMEDICHE E LA LORO GESTIONE, PATRON EDITORE, 1998.
- F. PINCIROLI, S. BONACINA. APPLICAZIONI DI SANITÀ DIGITALE, POLIPRESS, 2009.
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6
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ING-INF/06
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48
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-
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-
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-
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Related or supplementary learning activities
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ITA |
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20802032 -
digital electronic systems
(objectives)
The course aim is to improve the students' knowledge in digital electronics, from basic components to complex systems. Particular attention will be given to recent applications like FPGAs and ASICs and will be given basic knowledge about current digital communication standards such as USB, Ethernet and LVDS.
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FABBRI ANDREA
( syllabus)
1. Combinational Circuits;
2. Multiplexer/Demultiplexer, Decoder, asynchronous and synchronous counter;
3. ALU;
4. Finite State Machine;
5. SRAM;
6. DRAM;
7. FPGA precursor : sea of gates, PLD;
8. FPGA today: logic cell, CLB and slice;
9. Hardware Description Language: VHDL;
10. Desing Flow;
11. Layout;
12. RS232 and LVDS Standard;
13. USB Standard;
14. Ethernet Standard;
( reference books)
Floyd, Digital Fundamentals
Mauro Olivieri, Luca Giancane, Elementi di Progettazione dei Sistemi VLSI Vol. III - Esercizi di Progetto
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6
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ING-INF/01
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48
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-
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-
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-
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Core compulsory activities
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ITA |
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20802033 -
microelectronics
(objectives)
Aim of the course is to lead students to get more insight into the
fundamentals of digital systems, gaining knowledge for the basic
functionality and performances they have for different typical
applications. The course is mainly focused on the design of simple digital
electronic systems based on programmable devices and practical experiments
allow students to understand the fundamental working methodology from a
design perspective.
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SALVATORI STEFANO
( syllabus)
Introduction: fundamentals on digital electronic systems: wired vs. programmable logic; hardware description languages in the design of complex systems; programmable digital apparatus; microprocessor invention: Von Newmann and Harvard architectures; RISC e CISC; history and evolution of microprocessors; microcontrollers architecture;
ARM architecture: breef history; microprocessors at glance; instruction set; RISC architecture; internal registers organization; ARM and Thumb states; general purpose registers in ARM and Thumb modes; CISC versus RISC; ARM instructions; pipeline: realization, advantages and risks; exceptions: origin and management; interrupt: vettors and priority; memories: organization e addressing; standard model for ARM memory addressing; stack; bus architectures; debug systems and JTAG interface; ARM7TDMI organization with ARM9TDMI comparison;
LPC2000 (NXP) microcontrollers: system memory; VIC PL190; system controller; pin mapping and configuration; input/output ports; ADC; Timer; Flash memory; Embedded ICE.
Peripherals: A/D and D/A conversion; communication standards; the HD44780 LCD-controller.
Software: developing system; proprietary and open-source IDE; Eclipse; Make file, glue code, new project creation; software design; basic code, finite state machine, function and libraries, macro; interrupt vectors, priority, deadlock, priority inversion; interrupt management; debug: registers control, variables, stack; step-by-step execution; breadboarding.
Practical experiments: compile, upload, debug; prototype realization. Experiments on: LED driving; keyboard interfacing; voltage acquisition via an ADC; timer usage; PWM control; temperature sensor or transducer reading; LCD interface; programmable RTC; a simple clock; a chronothermostat.
( reference books)
Reference books:
Furber, “ARM, system-on-chip architecture”, second edition, Addison Wesley, 2000
Salvatori, “Introduzione alla progettazione con gli LPC2000”, Aracne editrice, 2011
NXP Semiconductors, “UM10161 LPC2101/02/03 User Manual”, www.nxp.com
NXP Semiconductors, “LPC2101/02/03 datasheet”, www.nxp.com
Martin, “The insider’s guide to the NXP ARM7-based microcontrollers”, www.hitex.co.uk
ARM Limited, “ARM7TDMI-S Technical Reference Manual”, r4p3, infocenter.arm.com
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9
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ING-INF/01
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72
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-
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-
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-
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Core compulsory activities
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ITA |
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20802047 -
Antennas for mobile communications
(objectives)
THIS COURSE AIMS AT GIVING THE STUDENT THE TOOLS TO ANALYZE AND DESIGN ANTENNAS FOR BOTH BASE STATIONS AND MOBILE TERMINALS OF CELLULAR COMMUNICATION SYSTEMS.
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6
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ING-INF/02
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48
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-
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-
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-
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Core compulsory activities
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ITA |
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20802048 -
MICROWAVES AND ANTENNAS LABORATORY
(objectives)
This course gives theoretical and experimental basis for the characterisation of microwave and radiofrequency circuits and antennas, as well as for the measurement of environmental electromagnetic fields. The course provides an introduction to the Ground Penetrating Radar as well. At the end of the course the student will be able to plan and perform experimental activities, in the electromagnetic fields area, by adopting the most appropriate equipment and components; the student will also be able to use an electromagnetic modelling software.
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PAJEWSKI LARA
( syllabus)
MICROONDE E PROPAGAZIONE GUIDATA DELLE ONDE ELETTROMAGNETICHE.
LE MICROONDE E LE STRUTTURE GUIDANTI. PROPAGAZIONE, ATTENUAZIONE E FREQUENZA DI TAGLIO DI MODI IN GUIDA D’ONDA A SEZIONE RETTANGOLARE; MODO DOMINANTE E INTERVALLO DI FREQUENZE UNIMODALE. SPESSORE DELLE PARETI DI UNA GUIDA PER UN COMPLETO SCHERMAGGIO. LINEE DI TRASMISSIONE EQUIVALENTI AI MODI GUIDATI. RICHIAMI SUL RAPPORTO D’ONDA STAZIONARIA (ROS). CARTA DI SMITH. PARAMETRI DI SCATTERING.
RADIAZIONE DA ANTENNE.
RADIAZIONE E RICEZIONE DI ONDE ELETTROMAGNETICHE. RICHIAMI SUI PARAMETRI FONDAMENTALI DI UN’ANTENNA, SUL COLLEGAMENTO RADIO E LA FORMULA DI FRIIS. LA CAMERA ANECOICA.
STRUMENTI E COMPONENTI PER MISURE DI PROPAGAZIONE GUIDATA E DI ANTENNE.
GENERATORE DI POTENZA E DI FORME D’ONDA. OSCILLATORE GUNN. ISOLATORE. MODULATORE. SINTONIZZATORE. ATTENUATORE. FREQUENZIMETRO. CORTO CIRCUITO VARIABILE. CARICO ADATTATO. RIVELATORE D’ONDA STAZIONARIA A LINEA FESSURATA. RIVELATORE A DIODO. ANTENNE A TROMBA, A RIFLETTORE E A ELICA. ALLINEAMENTI DI ANTENNE, A FENDITURA E A MICROSTRISCIA. CONNETTORI, CAVI E GIUNZIONI. MISURATORE DI ROS E DI GUADAGNO. OSCILLOSCOPIO. ANALIZZATORE DI RETI VETTORIALE.
INQUINAMENTO ELETTROMAGNETICO.
EFFETTI DEI CAMPI ELETTROMAGNETICI SULLA SALUTE UMANA. MISURA E VALUTAZIONE DEI CAMPI ELETTRICI E MAGNETICI NEGLI INTERVALLI DI FREQUENZA 0 – 10 KHZ E 10 KHZ – 300 GHZ: CARATTERISTICHE DELLE SORGENTI PRESENTI NEL TERRITORIO, NEGLI AMBIENTI DOMESTICI E DI LAVORO, STRUMENTAZIONE IN BANDA LARGA E STRETTA, NORME TECNICHE DI RIFERIMENTO E PROCEDURE DI MISURA.
INDAGINI ELETTROMAGNETICHE DEL SOTTOSUOLO E DIAGNOSTICA DI STRUTTURE CON TECNICHE GEORADAR.
PRINCIPI E LIMITI DI FUNZIONAMENTO DEL GEORADAR. MODALITÀ DI ESECUZIONE DELLE MISURE. ELABORAZIONE DEI DATI E INTERPRETAZIONE DEI RISULTATI. APPLICAZIONI: ARCHEOLOGIA, INGEGNERIA CIVILE, GEOFISICA, INDAGINI FORENSI, SMINAMENTO.
MISURE – PROPAGAZIONE GUIDATA.
1. MISURE DI FREQUENZA E DI LUNGHEZZA D’ONDA IN GUIDA.
2. MISURE DI ATTENUAZIONE IN GUIDA.
3. MISURE DI ROS. MISURE DI ROS BASSI E MEDI. MISURE DI ROS ELEVATI CON IL METODO DEI 3DB E CON IL METODO DELL’ATTENUATORE CALIBRATO.
4. MISURE DI IMPEDENZA.
MISURE – ANTENNE.
1. MISURE IN SPAZIO APERTO DEL DIAGRAMMA DI RADIAZIONE DI ANTENNE LINEARI.
2. MISURE IN SPAZIO APERTO DEL GUADAGNO DI ANTENNE LINEARI: CON TRASMETTITORE CAMPIONE, CON ANTENNE INCOGNITE GEMELLE, PER CONFRONTO, CON IL METODO DELLE TRE ANTENNE.
3. MISURE IN SPAZIO APERTO DEL DIAGRAMMA DI RADIAZIONE E DEL GUADAGNO DI ANTENNE NON LINEARI E DI ARRAY DI ANTENNE.
4. MISURE DI POLARIZZAZIONE.
MISURE – INQUINAMENTO ELETTROMAGNETICO.
CAMPAGNE DI MISURA IN BASSA E ALTA FREQUENZA, A BANDA LARGA E STRETTA.
MISURE – GEORADAR
PROVE PRATICHE DI UTILIZZO DI STRUMENTAZIONE RADAR AVANZATA.
( reference books)
SLIDES PROVIDED BY THE PROFESSOR AND MULTIMEDIA VIDEO
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9
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ING-INF/02
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72
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-
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-
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-
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Core compulsory activities
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ITA |
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20802049 -
NETWORKS FOR MULTIMEDIA COMMUNICATIONS
(objectives)
Aim of the course is the description the characteristics of telecommunications systems, from the telephone network to data packet/switch network to wireless networks. Among the issues that will be addressed, the performance evaluation in terms of quality, security and cost of service will be discussed. The multimedia communication requirements will be analyzed.
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CARLI MARCO
( syllabus)
Protocol layers and service models. OSI and Internet protocols.
What is the Internet. Concepts of delay, security, and Quality of Service (QoS).
Application layer protocols and client-server model.
Reliable data transfer. Stop-and-Go evaluation. TCP and UCP semantics and syntax.
TCP RTT estimation. Principles of congestion control.
Principles of routing: link-state and distance vector. IP semantics and syntax.
Link layer. Error detection. Multiple access protocols. Midterm Exam.
IEEE 802.3 Ethernet.
Switching and bridging. Media. Signal strength. Data encoding.
Wireless and mobile networks.
Security. Overview of threats, cryptography, authentication, and firewalls.
Hot topics. Sensor networks and Software Defined Networks.
Internet of Things
IoT Arduino-Fishino implementation
Sockets programming in C (client-server and web server programs).
( reference books)
Computer Networking: A Top-Down Approach, 6th edition, by James Kurose and Keith Ross (ISBN-13: 978-0132856201).
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9
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ING-INF/03
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72
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-
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-
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-
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Core compulsory activities
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ITA |
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20802060 -
BASIC LABORATORY: ELECTRONIC MEASUREMENTS
(objectives)
To present a series of practice exercitation to the students is the aim of the course. The laboratory experiences allow to the students to became confidence with base instrumentations always present in an electronic or measurements laboratory. The course is principally practice so after a brief introductive theory phase in which are explained of the exercitations and instrumentation presented in laboratory, the students has to attempt the laboratory facing autonomously each experience.
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LECCESE FABIO
( syllabus)
The course is divided in these parts:
1) Theory
Exercitation description of “high accuracy CC measurements” realized on the measurement bench called
“potentiometer” and description of standard and instrumentations used (3 hours);
Exercitation description of “zero measurements for impedance and pulsation at low frequencies” realized on
the measurement bench called “measurement bridges” and description of used instrumentations (3 hours);
Exercitation description of “electric CA power measurements” realized on the measurement bench called
“classic measurements” and description of used instrumentations (3 hours);
Description of laboratory digital instrumentation: oscilloscope, multimeter, function generators, suppliers (3
hours);
Exercitation description of “measurements of the low frequencies analogical filters characteristics” realized on
the measurement bench called “filters” and description of used instrumentations (3 hours);
Exercitation description of “measurements of operational amplifier characteristics” realized on the
homonymous bench and description of used instrumentations (3 hours).
3. Laboratory
Practice exercitations on the five benches for totally 72 hours. The single hourly slot is 1,5 hours and inside
each slot all the benches are occupied by single students or by a little group of students, depending by the total
amount of students in the course.
( reference books)
SLIDES PROVIDED BY THE PROFESSOR AND MULTIMEDIA VIDEO
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6
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ING-INF/07
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48
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-
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-
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-
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Core compulsory activities
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ITA |
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20802061 -
MULTIMEDIA LABORATORY
(objectives)
The course aims at illustrating the more recent techniques for multimedia signal processing. Video signals and images will be analyzed in both bi-dimensional and tri-dimensional case. The course will be organized in two parts: in the first, the basics needed for multimedia signal processing and programming in MATLAB will be presented to the students. In the second part practical experiences will be performed, both in individual and in group assignements, by using the tools available in the lab (Kinect, Rendering 3d Systems, Stereo Webcam).
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BATTISTI FEDERICA
( syllabus)
- Introduction to programming in MATLAB
- Characteristics of the Human Visual System
- Image processing in the spatial domain
- Image processing in the transform domain
- Image compression standards (JPEG, JPEG2000)
- Stereoscopic vision and rendering techniques
- Introduction to digital video
- Video compression standards (MPEG, H.264, HEVC)
- Natural interfaces (Kinect, LEAP, Oculus Rift)
- Group practice in the lab
( reference books)
- R.C. Gonzalez, R.E. Woods, and S. L. Eddins, "Digital Image Processing using Matlab", Publisher: Prentice-Hall
- O. Marques, "Practical Image and Video Processing Using MATLAB", Publisher: Wiley-IEEE Press
- B. Block and P. McNally, “3D storytelling: how stereoscopic 3D works and how to use it”, Publisher: Focal Press
- C. W. Chen, Z. Li and S. Lian, “Intelligent Multimedia Communication: Techniques and Applications (Studies in Computational Intelligence)”, Publisher: Springer
- Slides provided by the teacher
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6
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ING-INF/03
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48
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-
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-
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-
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Core compulsory activities
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ITA |
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20802062 -
NETWORK COMMUNICATIONS LABORATORY
(objectives)
This course has the twofold aim of providing the basic knowledge of telecommunication and ad hoc networks, as well as introducing advanced methodologies for the analysis of telecommunication systems, through simulation software (Network Simulator 2), and the design and configuration of wireless and wired networks. Simulation analysis assesses network performance, while the use of traffic monitoring systems evaluates the effectiveness of the networks designed.
-
VEGNI ANNA MARIA
( syllabus)
THEORY:
- Course Introduction: What are networks? Small worlds, Social and Telecommunications networks
- Network performance: Delay, Packet loss, Throughput, Jitter
- Transport layer: Basics on TCP, Timers, Flow and Congestion Control
- Data information sources: Average rate and peak rate, Burstiness, traffic sources in NS2
- Network Applications: Network Application Architectures (Client-Server and P2P), Peer-to-Peer applications (BitTorrent and Skype), HTTP and FTP, DNS
- VANETs: Introduction to Vehicular Ad-hoc NETworks, main aspects and differences with MANETs, Safety and comfort applications, communication protocols
- Search Engines: Link structure and TF-IDF, Page Ranking techniques (HITS, PageRank)
LAB ACTIVITIES:
- Introduction to Network Simulator (NS2) and Network AniMator (NAM), Events in NS2
- The Tcl language
- Objects in NS2
- Post processing in NS2
- How to use NSCRIPT
- How to use XGRAPH
- Simulation results in XGRAPH
- Introduction to IEEE 802.11 networks and Mobile IP
- Mobility in NS2 with NSG2.1
( reference books)
- DISPENSE A CURA DEL DOCENTE
- J.F. KUROSE, AND K.W. ROSS, “COMPUTER NETWORKING: A TOP-DOWN APPROACH”, 5TH EDITION, ADDISON WESLEY
- A.S. TANENBAUM, “COMPUTER NETWORKS”, 4TH EDITION, PRENTICE HALL 2002.
- D. EASLEY, AND J. KELINBERG, “NETWORKS, CROWDS, AND MARKETS: REASONING ABOUT A HIGHLY CONNECTED WORLD”, CAMBRIDGE UNIVERSITY PRESS, 2010.
- MANUALI ONLINE DI NS2
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6
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ING-INF/03
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48
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-
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-
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-
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Core compulsory activities
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ITA |
20802065 -
REMOTE SENSING
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PONTI CRISTINA
( syllabus)
Introduction to enviromental Remore Sensign. The role of Earth or Satellite based Remote Sensing for monitoring the Earth’s surface and the atmosphere. The electromagnetic spectrum and the main Remote Sensing techniques.
Parameters measured by the sensors and thermal emission. Parameters of interaction between radiation and natural media. Blackbody emission: Planck law, Stephan-Boltzmann law, Wien law. Real body emission. Emissivity. Absorbivity. Kirchhoff law. Parameters of interaction with single object. Volumetric parameters and surface parameters. Specular and Lambert surface. Reflection and transmission by plane surface a dielectric slab. Radiative transfer equation. Solution in low-scattering or not-scattering media and its application to microwave radiometry.
Microwave passive Remote Sensing of the Earth surface. Emission and reflective properties of bare and vegetated soil. Effects of roughnesses and water content. Measures of soil water content. Emission and reflective proparties of the sea surface. Measurem,ents of Sea Surface Temperature, salinity, and wind speed. Emission and reflective properties of snow and ice.
Microwave passive Remote Sensing of the atmosphere. Composition of the atmosphere. Models of temperature, water vapor, and pressure. Mechanisms of interaction of the electromagnetic waves with the atmosphere: absorption and emission from atmospheric gas, scattering by atmospheric particles. Atmospheric parameters from ground of satellite: vertical profiles of temperature and water vapor. Rainfall rate. Limb sounding of the atmosphere.
Radiometers for microwave passive Remote Sensing. System noise. Fundamentals of a radiometer: antenna temperature. Examples of radiometers: total power radiometer, Dicke radiometer. Scanning and tracking in radiometer: along-tracck- and across-track scanning, conical scanning. Geometric and radiometric resolution. Present satellite missions.
Active sensors for Microwave Remote Sensing. Radar for microwave Remote Sensing: generalities. Radar equation. Radar ad impulsi: misura della distanza; portata strumentale; ambiguità in distanza. Lo scatterometro: funzionamento ed applicazioni. Scatterometro in modalità side-looking.
( reference books)
P. Ferrazzoli, “Introduzione al Telerilevamento ambientale”, Aracne, 1993.
G. Galati e A. Gilardini, “Tecniche e strumenti per il Telerilevamento ambientale”, Roma, 2000.
Dispense fornite dal docente su Moodle
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6
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ING-INF/02
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48
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-
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-
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-
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Core compulsory activities
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ITA |
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20802129 -
Fundamentals of Business and Accounting for students of Engineering
(objectives)
The main goal of the course is to drive the Engineering students through the organization of the firms, by defining their logical boundaries and their main characteristics.
At the end of the lessons, the students are expected to be able to know the institutional matters of the firms (both profit oriented and not for profit), their objectives and the main ways they have to pursue in order achieve their own goals.
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Derived from
20802129 ELEMENTI DI ECONOMIA AZIENDALE PER INGEGNERIA in INGEGNERIA CIVILE (DM 270) L-7 N0 REGOLIOSI CARLO
( syllabus)
1. L’AZIENDA COME ISTITUTO ECONOMICO
2. CARATTERI GENERALI: OGGETTO DELL’AZIENDA. – SOGGETTI DELL’AZIENDA: “SOGGETTO GIURIDICO” E “SOGGETTO ECONOMICO”.
3. VARI TIPI DI AZIENDA
4. L’IMPRESA NEI SUOI PIÙ GENERALI CARATTERI ECONOMICI.
5. L’IMPRESA E L’INIZIATIVA INDIVIDUALE IN CAMPO ECONOMICO: IMPRESE PRIVATE ED IMPRESE PUBBLICHE.
6. GLI AGGREGATI AZIENDALI.
7. I FINI DELL’IMPRESA. L’EQUILIBRIO ECONOMICO COME FONDAMENTALE CONDIZIONE DI VITA DELL’IMPRESA. L’EQUILIBRIO ECONOMICO E L’ECONOMICITÀ.
8. LE POSSIBILI MODALITÀ DI REMUNERAZIONE DEI FATTORI PRODUTTIVI UTILIZZATI.
9. IL RISCHIO D’IMPRESA. REDDITO E PROFITTO.
10. IL FINANZIAMENTO DELL’IMPRESA. IL FABBISOGNO DI CAPITALE E LA SUA DETERMINAZIONE.
11. IL FINANZIAMENTO DELL’IMPRESA: “CAPITALE PROPRIO” E “CAPITALE DI CREDITO” NELLE LORO VARIE FORME; L’AUTOFINANZIAMENTO D’IMPRESA; LA SCELTA DELLE CONVENIENTI FORME DI FINANZIAMENTO.
12. L’IMPRESA ETICA E L’ADEGUATEZZA DEI RISULTATI ECONOMICI.
13. L’AZIENDA-IMPRESA E I MERCATI: ANALISI E PREVISIONE DELLA DOMANDA
14. LA PRODUZIONE NELLE AZIENDE-IMPRESE
15. LA POLITICA DEGLI INVESTIMENTI NELLE AZIENDE- IMPRESE
16. IL SISTEMA DI CONTROLLO INTERNO NELLE AZIENDE-IMPRESE
LA RILEVAZIONE CONTABILE. TEORIA DEL METODO DELLA PARTITA DOPPIA. IL METODO DELLA PARTITA DOPPIA APPLICATO AL SISTEMA DEL REDDITO NELLE AZIENDE DI PRODUZIONE.
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6
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ING-IND/35
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54
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-
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-
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Related or supplementary learning activities
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ITA |
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Optional group:
comune Orientamento unico LISTA AD CONSIGLIATE - (show)
|
6
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20801995 -
HEALTH MANAGEMENT SYSTEMS
(objectives)
THE COURSE OBJECTIVE IS TO LET THE STUDENT OBTAIN COMPETENCES ON: THE ISSUES RELATED TO THE ACQUISITION AND MANAGEMENT OF BIOMEDICAL EQUIPMENT, AND OF RELEVANT DATA IN THE MANAGEMENT OF HEALTH SYSTEMS; INFORMATION SYSTEMS (ACCOUNTING, MAINTENANCE MANAGEMENT ETC..); TODAY'S STANDARDS ON STORAGE AND TRANSMISSION OF MEDICAL DATA. AT THE END OF THE COURSE, IT IS PREDICTED THAT THE STUDENT WILL ALSO MASTER PROBABILITY MODELS ASSOCIATED TO THE MAINTENANCE OF BIOMEDICAL EQUIPMENT.
-
SCHMID MAURIZIO
( syllabus)
Clinical engineering: glossary of terms; definition and classification of medical devices; national and international outlook of clinical engineering; clinical engineering competences.
Specifications of a selection of medical devices: reading, comprehension and writing of the technical specifications.
Management and maintenance of medical devices: inventory, national classification of medical devices (CND); global medical device nomenclature (GMDN). Entity-relationship diagram models.
Probability theory fundamentals for the maintenance of medical devices: reliability and availability; failure rate, and other relevant indicators: costs and times; maintenance strategies, roles and duties.
Life Cycle Cost Analysis (LCCA) in the healthcare sector; health technology assessment: indicators of clinical efficacy (QALY, DALY); economic burden.
Regulations in the healthcare sector (national level), and comparison at the international level; WHO directives and recommendations. Bismarck-Beveridge and mixed models.
Efficiency of a healthcare structure: indicators for outpatients and inpatients; hospital environment: risk evaluation and minimization; relevant indicators.
( reference books)
Slides, exercises and other material freely available for students at http://biolab.uniroma3.it or on the University moodle platform.
Further readings:
- C. LAMBERTI, W. RAINER. LE APPARECCHIATURE BIOMEDICHE E LA LORO GESTIONE, PATRON EDITORE, 1998.
- F. PINCIROLI, S. BONACINA. APPLICAZIONI DI SANITÀ DIGITALE, POLIPRESS, 2009.
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20802032 -
digital electronic systems
(objectives)
The course aim is to improve the students' knowledge in digital electronics, from basic components to complex systems. Particular attention will be given to recent applications like FPGAs and ASICs and will be given basic knowledge about current digital communication standards such as USB, Ethernet and LVDS.
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FABBRI ANDREA
( syllabus)
1. Combinational Circuits;
2. Multiplexer/Demultiplexer, Decoder, asynchronous and synchronous counter;
3. ALU;
4. Finite State Machine;
5. SRAM;
6. DRAM;
7. FPGA precursor : sea of gates, PLD;
8. FPGA today: logic cell, CLB and slice;
9. Hardware Description Language: VHDL;
10. Desing Flow;
11. Layout;
12. RS232 and LVDS Standard;
13. USB Standard;
14. Ethernet Standard;
( reference books)
Floyd, Digital Fundamentals
Mauro Olivieri, Luca Giancane, Elementi di Progettazione dei Sistemi VLSI Vol. III - Esercizi di Progetto
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20802033 -
microelectronics
(objectives)
Aim of the course is to lead students to get more insight into the
fundamentals of digital systems, gaining knowledge for the basic
functionality and performances they have for different typical
applications. The course is mainly focused on the design of simple digital
electronic systems based on programmable devices and practical experiments
allow students to understand the fundamental working methodology from a
design perspective.
-
SALVATORI STEFANO
( syllabus)
Introduction: fundamentals on digital electronic systems: wired vs. programmable logic; hardware description languages in the design of complex systems; programmable digital apparatus; microprocessor invention: Von Newmann and Harvard architectures; RISC e CISC; history and evolution of microprocessors; microcontrollers architecture;
ARM architecture: breef history; microprocessors at glance; instruction set; RISC architecture; internal registers organization; ARM and Thumb states; general purpose registers in ARM and Thumb modes; CISC versus RISC; ARM instructions; pipeline: realization, advantages and risks; exceptions: origin and management; interrupt: vettors and priority; memories: organization e addressing; standard model for ARM memory addressing; stack; bus architectures; debug systems and JTAG interface; ARM7TDMI organization with ARM9TDMI comparison;
LPC2000 (NXP) microcontrollers: system memory; VIC PL190; system controller; pin mapping and configuration; input/output ports; ADC; Timer; Flash memory; Embedded ICE.
Peripherals: A/D and D/A conversion; communication standards; the HD44780 LCD-controller.
Software: developing system; proprietary and open-source IDE; Eclipse; Make file, glue code, new project creation; software design; basic code, finite state machine, function and libraries, macro; interrupt vectors, priority, deadlock, priority inversion; interrupt management; debug: registers control, variables, stack; step-by-step execution; breadboarding.
Practical experiments: compile, upload, debug; prototype realization. Experiments on: LED driving; keyboard interfacing; voltage acquisition via an ADC; timer usage; PWM control; temperature sensor or transducer reading; LCD interface; programmable RTC; a simple clock; a chronothermostat.
( reference books)
Reference books:
Furber, “ARM, system-on-chip architecture”, second edition, Addison Wesley, 2000
Salvatori, “Introduzione alla progettazione con gli LPC2000”, Aracne editrice, 2011
NXP Semiconductors, “UM10161 LPC2101/02/03 User Manual”, www.nxp.com
NXP Semiconductors, “LPC2101/02/03 datasheet”, www.nxp.com
Martin, “The insider’s guide to the NXP ARM7-based microcontrollers”, www.hitex.co.uk
ARM Limited, “ARM7TDMI-S Technical Reference Manual”, r4p3, infocenter.arm.com
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20802047 -
Antennas for mobile communications
(objectives)
THIS COURSE AIMS AT GIVING THE STUDENT THE TOOLS TO ANALYZE AND DESIGN ANTENNAS FOR BOTH BASE STATIONS AND MOBILE TERMINALS OF CELLULAR COMMUNICATION SYSTEMS.
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20802048 -
MICROWAVES AND ANTENNAS LABORATORY
(objectives)
This course gives theoretical and experimental basis for the characterisation of microwave and radiofrequency circuits and antennas, as well as for the measurement of environmental electromagnetic fields. The course provides an introduction to the Ground Penetrating Radar as well. At the end of the course the student will be able to plan and perform experimental activities, in the electromagnetic fields area, by adopting the most appropriate equipment and components; the student will also be able to use an electromagnetic modelling software.
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PAJEWSKI LARA
( syllabus)
MICROONDE E PROPAGAZIONE GUIDATA DELLE ONDE ELETTROMAGNETICHE.
LE MICROONDE E LE STRUTTURE GUIDANTI. PROPAGAZIONE, ATTENUAZIONE E FREQUENZA DI TAGLIO DI MODI IN GUIDA D’ONDA A SEZIONE RETTANGOLARE; MODO DOMINANTE E INTERVALLO DI FREQUENZE UNIMODALE. SPESSORE DELLE PARETI DI UNA GUIDA PER UN COMPLETO SCHERMAGGIO. LINEE DI TRASMISSIONE EQUIVALENTI AI MODI GUIDATI. RICHIAMI SUL RAPPORTO D’ONDA STAZIONARIA (ROS). CARTA DI SMITH. PARAMETRI DI SCATTERING.
RADIAZIONE DA ANTENNE.
RADIAZIONE E RICEZIONE DI ONDE ELETTROMAGNETICHE. RICHIAMI SUI PARAMETRI FONDAMENTALI DI UN’ANTENNA, SUL COLLEGAMENTO RADIO E LA FORMULA DI FRIIS. LA CAMERA ANECOICA.
STRUMENTI E COMPONENTI PER MISURE DI PROPAGAZIONE GUIDATA E DI ANTENNE.
GENERATORE DI POTENZA E DI FORME D’ONDA. OSCILLATORE GUNN. ISOLATORE. MODULATORE. SINTONIZZATORE. ATTENUATORE. FREQUENZIMETRO. CORTO CIRCUITO VARIABILE. CARICO ADATTATO. RIVELATORE D’ONDA STAZIONARIA A LINEA FESSURATA. RIVELATORE A DIODO. ANTENNE A TROMBA, A RIFLETTORE E A ELICA. ALLINEAMENTI DI ANTENNE, A FENDITURA E A MICROSTRISCIA. CONNETTORI, CAVI E GIUNZIONI. MISURATORE DI ROS E DI GUADAGNO. OSCILLOSCOPIO. ANALIZZATORE DI RETI VETTORIALE.
INQUINAMENTO ELETTROMAGNETICO.
EFFETTI DEI CAMPI ELETTROMAGNETICI SULLA SALUTE UMANA. MISURA E VALUTAZIONE DEI CAMPI ELETTRICI E MAGNETICI NEGLI INTERVALLI DI FREQUENZA 0 – 10 KHZ E 10 KHZ – 300 GHZ: CARATTERISTICHE DELLE SORGENTI PRESENTI NEL TERRITORIO, NEGLI AMBIENTI DOMESTICI E DI LAVORO, STRUMENTAZIONE IN BANDA LARGA E STRETTA, NORME TECNICHE DI RIFERIMENTO E PROCEDURE DI MISURA.
INDAGINI ELETTROMAGNETICHE DEL SOTTOSUOLO E DIAGNOSTICA DI STRUTTURE CON TECNICHE GEORADAR.
PRINCIPI E LIMITI DI FUNZIONAMENTO DEL GEORADAR. MODALITÀ DI ESECUZIONE DELLE MISURE. ELABORAZIONE DEI DATI E INTERPRETAZIONE DEI RISULTATI. APPLICAZIONI: ARCHEOLOGIA, INGEGNERIA CIVILE, GEOFISICA, INDAGINI FORENSI, SMINAMENTO.
MISURE – PROPAGAZIONE GUIDATA.
1. MISURE DI FREQUENZA E DI LUNGHEZZA D’ONDA IN GUIDA.
2. MISURE DI ATTENUAZIONE IN GUIDA.
3. MISURE DI ROS. MISURE DI ROS BASSI E MEDI. MISURE DI ROS ELEVATI CON IL METODO DEI 3DB E CON IL METODO DELL’ATTENUATORE CALIBRATO.
4. MISURE DI IMPEDENZA.
MISURE – ANTENNE.
1. MISURE IN SPAZIO APERTO DEL DIAGRAMMA DI RADIAZIONE DI ANTENNE LINEARI.
2. MISURE IN SPAZIO APERTO DEL GUADAGNO DI ANTENNE LINEARI: CON TRASMETTITORE CAMPIONE, CON ANTENNE INCOGNITE GEMELLE, PER CONFRONTO, CON IL METODO DELLE TRE ANTENNE.
3. MISURE IN SPAZIO APERTO DEL DIAGRAMMA DI RADIAZIONE E DEL GUADAGNO DI ANTENNE NON LINEARI E DI ARRAY DI ANTENNE.
4. MISURE DI POLARIZZAZIONE.
MISURE – INQUINAMENTO ELETTROMAGNETICO.
CAMPAGNE DI MISURA IN BASSA E ALTA FREQUENZA, A BANDA LARGA E STRETTA.
MISURE – GEORADAR
PROVE PRATICHE DI UTILIZZO DI STRUMENTAZIONE RADAR AVANZATA.
( reference books)
SLIDES PROVIDED BY THE PROFESSOR AND MULTIMEDIA VIDEO
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20802049 -
NETWORKS FOR MULTIMEDIA COMMUNICATIONS
(objectives)
Aim of the course is the description the characteristics of telecommunications systems, from the telephone network to data packet/switch network to wireless networks. Among the issues that will be addressed, the performance evaluation in terms of quality, security and cost of service will be discussed. The multimedia communication requirements will be analyzed.
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CARLI MARCO
( syllabus)
Protocol layers and service models. OSI and Internet protocols.
What is the Internet. Concepts of delay, security, and Quality of Service (QoS).
Application layer protocols and client-server model.
Reliable data transfer. Stop-and-Go evaluation. TCP and UCP semantics and syntax.
TCP RTT estimation. Principles of congestion control.
Principles of routing: link-state and distance vector. IP semantics and syntax.
Link layer. Error detection. Multiple access protocols. Midterm Exam.
IEEE 802.3 Ethernet.
Switching and bridging. Media. Signal strength. Data encoding.
Wireless and mobile networks.
Security. Overview of threats, cryptography, authentication, and firewalls.
Hot topics. Sensor networks and Software Defined Networks.
Internet of Things
IoT Arduino-Fishino implementation
Sockets programming in C (client-server and web server programs).
( reference books)
Computer Networking: A Top-Down Approach, 6th edition, by James Kurose and Keith Ross (ISBN-13: 978-0132856201).
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20802060 -
BASIC LABORATORY: ELECTRONIC MEASUREMENTS
(objectives)
To present a series of practice exercitation to the students is the aim of the course. The laboratory experiences allow to the students to became confidence with base instrumentations always present in an electronic or measurements laboratory. The course is principally practice so after a brief introductive theory phase in which are explained of the exercitations and instrumentation presented in laboratory, the students has to attempt the laboratory facing autonomously each experience.
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LECCESE FABIO
( syllabus)
The course is divided in these parts:
1) Theory
Exercitation description of “high accuracy CC measurements” realized on the measurement bench called
“potentiometer” and description of standard and instrumentations used (3 hours);
Exercitation description of “zero measurements for impedance and pulsation at low frequencies” realized on
the measurement bench called “measurement bridges” and description of used instrumentations (3 hours);
Exercitation description of “electric CA power measurements” realized on the measurement bench called
“classic measurements” and description of used instrumentations (3 hours);
Description of laboratory digital instrumentation: oscilloscope, multimeter, function generators, suppliers (3
hours);
Exercitation description of “measurements of the low frequencies analogical filters characteristics” realized on
the measurement bench called “filters” and description of used instrumentations (3 hours);
Exercitation description of “measurements of operational amplifier characteristics” realized on the
homonymous bench and description of used instrumentations (3 hours).
3. Laboratory
Practice exercitations on the five benches for totally 72 hours. The single hourly slot is 1,5 hours and inside
each slot all the benches are occupied by single students or by a little group of students, depending by the total
amount of students in the course.
( reference books)
SLIDES PROVIDED BY THE PROFESSOR AND MULTIMEDIA VIDEO
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20802061 -
MULTIMEDIA LABORATORY
(objectives)
The course aims at illustrating the more recent techniques for multimedia signal processing. Video signals and images will be analyzed in both bi-dimensional and tri-dimensional case. The course will be organized in two parts: in the first, the basics needed for multimedia signal processing and programming in MATLAB will be presented to the students. In the second part practical experiences will be performed, both in individual and in group assignements, by using the tools available in the lab (Kinect, Rendering 3d Systems, Stereo Webcam).
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BATTISTI FEDERICA
( syllabus)
- Introduction to programming in MATLAB
- Characteristics of the Human Visual System
- Image processing in the spatial domain
- Image processing in the transform domain
- Image compression standards (JPEG, JPEG2000)
- Stereoscopic vision and rendering techniques
- Introduction to digital video
- Video compression standards (MPEG, H.264, HEVC)
- Natural interfaces (Kinect, LEAP, Oculus Rift)
- Group practice in the lab
( reference books)
- R.C. Gonzalez, R.E. Woods, and S. L. Eddins, "Digital Image Processing using Matlab", Publisher: Prentice-Hall
- O. Marques, "Practical Image and Video Processing Using MATLAB", Publisher: Wiley-IEEE Press
- B. Block and P. McNally, “3D storytelling: how stereoscopic 3D works and how to use it”, Publisher: Focal Press
- C. W. Chen, Z. Li and S. Lian, “Intelligent Multimedia Communication: Techniques and Applications (Studies in Computational Intelligence)”, Publisher: Springer
- Slides provided by the teacher
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20802062 -
NETWORK COMMUNICATIONS LABORATORY
(objectives)
This course has the twofold aim of providing the basic knowledge of telecommunication and ad hoc networks, as well as introducing advanced methodologies for the analysis of telecommunication systems, through simulation software (Network Simulator 2), and the design and configuration of wireless and wired networks. Simulation analysis assesses network performance, while the use of traffic monitoring systems evaluates the effectiveness of the networks designed.
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VEGNI ANNA MARIA
( syllabus)
THEORY:
- Course Introduction: What are networks? Small worlds, Social and Telecommunications networks
- Network performance: Delay, Packet loss, Throughput, Jitter
- Transport layer: Basics on TCP, Timers, Flow and Congestion Control
- Data information sources: Average rate and peak rate, Burstiness, traffic sources in NS2
- Network Applications: Network Application Architectures (Client-Server and P2P), Peer-to-Peer applications (BitTorrent and Skype), HTTP and FTP, DNS
- VANETs: Introduction to Vehicular Ad-hoc NETworks, main aspects and differences with MANETs, Safety and comfort applications, communication protocols
- Search Engines: Link structure and TF-IDF, Page Ranking techniques (HITS, PageRank)
LAB ACTIVITIES:
- Introduction to Network Simulator (NS2) and Network AniMator (NAM), Events in NS2
- The Tcl language
- Objects in NS2
- Post processing in NS2
- How to use NSCRIPT
- How to use XGRAPH
- Simulation results in XGRAPH
- Introduction to IEEE 802.11 networks and Mobile IP
- Mobility in NS2 with NSG2.1
( reference books)
- DISPENSE A CURA DEL DOCENTE
- J.F. KUROSE, AND K.W. ROSS, “COMPUTER NETWORKING: A TOP-DOWN APPROACH”, 5TH EDITION, ADDISON WESLEY
- A.S. TANENBAUM, “COMPUTER NETWORKS”, 4TH EDITION, PRENTICE HALL 2002.
- D. EASLEY, AND J. KELINBERG, “NETWORKS, CROWDS, AND MARKETS: REASONING ABOUT A HIGHLY CONNECTED WORLD”, CAMBRIDGE UNIVERSITY PRESS, 2010.
- MANUALI ONLINE DI NS2
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20802110 -
BIOMEDICAL EQUIPMENT
(objectives)
Acquire specific knowledge on methods and technologies used in the biomedical field, through the proposition of significant examples of biomedical signals acquisition. Get acquainted with the fundamentals of the regulations and certification of biomedical devices and systems. Get familiar with the instrumentation for the acuisition of biomedical data and signals, and for the assessment of the performance, quality and safety of the biomedical instrumentation.
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D'ALESSIO TOMMASO
( syllabus)
The role of instrumentation and biomedical technologies
• Biomedical quantities. Outline of a biomedical instrument.
• The origin of biopotentials, physiology, typical signals: ECG, EMG, EEG.
• Features of measurement systems
• The ECG / EEG / EMG signals: measurement and applications
• The electrocardiograph as a paradigm: the signal acquisition, processing, patient safety
• Lab Equipment
• Accuracy, Measurement uncertainty
• Acquisition and sampling
• Electrical safety of DM
• Certification of DM
• Seminars
Laboratory practice
1. Familiarization with laboratory instruments
2. Transfer function of an ECG signal conditioning circuit
3. Acquisition of an ECG signal
4. Tests of functionality / electrical safety of medical devices
Warnings
1. The laboratory exercises are compulsory.
2. In the absence of practice, a student is admitted to the examination only after he/she has demonstrated, in the laboratory, that is able to carry out the work done during the laboratory practices.
( reference books)
Didactic material provided by the teacher.
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20802111 -
ENVIROMENTAL REMOTE SENGING
(objectives)
The course aims at giving the fundamentals of Remote Sensing. The main applications of Remote Sensing for the extraction of enviromental parameter, relevant to earth surface, sea, and atmosphere, are shown, and a particular attention is devoted to passive techniques at Microwave frequencies. The operational principles of passive Microwave sensors are illustrated, as well as spaceborne techniques.
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PONTI CRISTINA
( syllabus)
Introduction to enviromental Remore Sensign. The role of Earth or Satellite based Remote Sensing for monitoring the Earth’s surface and the atmosphere. The electromagnetic spectrum and the main Remote Sensing techniques.
Parameters measured by the sensors and thermal emission. Parameters of interaction between radiation and natural media. Blackbody emission: Planck law, Stephan-Boltzmann law, Wien law. Real body emission. Emissivity. Absorbivity. Kirchhoff law. Parameters of interaction with single object. Volumetric parameters and surface parameters. Specular and Lambert surface. Reflection and transmission by plane surface a dielectric slab. Radiative transfer equation. Solution in low-scattering or not-scattering media and its application to microwave radiometry.
Microwave passive Remote Sensing of the Earth surface. Emission and reflective properties of bare and vegetated soil. Effects of roughnesses and water content. Measures of soil water content. Emission and reflective proparties of the sea surface. Measurem,ents of Sea Surface Temperature, salinity, and wind speed. Emission and reflective properties of snow and ice.
Microwave passive Remote Sensing of the atmosphere. Composition of the atmosphere. Models of temperature, water vapor, and pressure. Mechanisms of interaction of the electromagnetic waves with the atmosphere: absorption and emission from atmospheric gas, scattering by atmospheric particles. Atmospheric parameters from ground of satellite: vertical profiles of temperature and water vapor. Rainfall rate. Limb sounding of the atmosphere.
Radiometers for microwave passive Remote Sensing. System noise. Fundamentals of a radiometer: antenna temperature. Examples of radiometers: total power radiometer, Dicke radiometer. Scanning and tracking in radiometer: along-tracck- and across-track scanning, conical scanning. Geometric and radiometric resolution. Present satellite missions.
Active sensors for Microwave Remote Sensing. Radar for microwave Remote Sensing: generalities. Radar equation. Radar ad impulsi: misura della distanza; portata strumentale; ambiguità in distanza. Lo scatterometro: funzionamento ed applicazioni. Scatterometro in modalità side-looking.
( reference books)
P. Ferrazzoli, “Introduzione al Telerilevamento ambientale”, Aracne, 1993.
G. Galati e A. Gilardini, “Tecniche e strumenti per il Telerilevamento ambientale”, Roma, 2000.
Dispense fornite dal docente su Moodle
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20802129 -
Fundamentals of Business and Accounting for students of Engineering
(objectives)
The main goal of the course is to drive the Engineering students through the organization of the firms, by defining their logical boundaries and their main characteristics.
At the end of the lessons, the students are expected to be able to know the institutional matters of the firms (both profit oriented and not for profit), their objectives and the main ways they have to pursue in order achieve their own goals.
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Derived from
20802129 ELEMENTI DI ECONOMIA AZIENDALE PER INGEGNERIA in INGEGNERIA CIVILE (DM 270) L-7 N0 REGOLIOSI CARLO
( syllabus)
1. L’AZIENDA COME ISTITUTO ECONOMICO
2. CARATTERI GENERALI: OGGETTO DELL’AZIENDA. – SOGGETTI DELL’AZIENDA: “SOGGETTO GIURIDICO” E “SOGGETTO ECONOMICO”.
3. VARI TIPI DI AZIENDA
4. L’IMPRESA NEI SUOI PIÙ GENERALI CARATTERI ECONOMICI.
5. L’IMPRESA E L’INIZIATIVA INDIVIDUALE IN CAMPO ECONOMICO: IMPRESE PRIVATE ED IMPRESE PUBBLICHE.
6. GLI AGGREGATI AZIENDALI.
7. I FINI DELL’IMPRESA. L’EQUILIBRIO ECONOMICO COME FONDAMENTALE CONDIZIONE DI VITA DELL’IMPRESA. L’EQUILIBRIO ECONOMICO E L’ECONOMICITÀ.
8. LE POSSIBILI MODALITÀ DI REMUNERAZIONE DEI FATTORI PRODUTTIVI UTILIZZATI.
9. IL RISCHIO D’IMPRESA. REDDITO E PROFITTO.
10. IL FINANZIAMENTO DELL’IMPRESA. IL FABBISOGNO DI CAPITALE E LA SUA DETERMINAZIONE.
11. IL FINANZIAMENTO DELL’IMPRESA: “CAPITALE PROPRIO” E “CAPITALE DI CREDITO” NELLE LORO VARIE FORME; L’AUTOFINANZIAMENTO D’IMPRESA; LA SCELTA DELLE CONVENIENTI FORME DI FINANZIAMENTO.
12. L’IMPRESA ETICA E L’ADEGUATEZZA DEI RISULTATI ECONOMICI.
13. L’AZIENDA-IMPRESA E I MERCATI: ANALISI E PREVISIONE DELLA DOMANDA
14. LA PRODUZIONE NELLE AZIENDE-IMPRESE
15. LA POLITICA DEGLI INVESTIMENTI NELLE AZIENDE- IMPRESE
16. IL SISTEMA DI CONTROLLO INTERNO NELLE AZIENDE-IMPRESE
LA RILEVAZIONE CONTABILE. TEORIA DEL METODO DELLA PARTITA DOPPIA. IL METODO DELLA PARTITA DOPPIA APPLICATO AL SISTEMA DEL REDDITO NELLE AZIENDE DI PRODUZIONE.
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Università Roma Tre