| TELECOMMUNICATION SYSTEMS
(objectives)
• Course objective is to provide the attendees with a comprehensive knowledge of basic theory, methodologies, and technologies for outdoor and indoor navigation systems including Global Navigation Satellite Systems (GNSS) like GPS, GALILEO, GLONASS e BEIDOU, regional systems like IRNSS, QZSS, terrestrial radio-localization systems based on 4G and 5G mobile networks, and local area networks (WiFi, Bluetooth, ZigBee, UWB, RF-ID, etc.), inertial navigation systems (INS),and heterogeneous systems (e.g. GNSS+INS).
Additional objective is the ability to apply the previous methodologies and technologies to major applications based on the user position, like intelligent transportation systems (avionics, rail, road, maritime), infomobility, automotive, location based services for smartphones, tablets, mobile computers, and environment monitoring.
• To acquire general concept on new generation mobile networks (3G, 4G, 5G, 6G) as part of a communication system. To provide an overview on main operating principles of a structured mobile network, such as the available services also from a financial and economic viewpoint, quality requirements, mobility management, security, secrecy and authentication problems, localization services, power control of connected devices, access technologies from wireless devices, evolution of architecture of SW network virtualization, algorithms of array processing to allow dedicated efficient links in modern standards (5G and beyond) between terminals or smart objects connected to the IoT world.
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Code
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20810268 |
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Language
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ITA |
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Type of certificate
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Profit certificate
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| Module: LOCALIZATION AND NAVIGATION SYSTEMS
(objectives)
Course objective is to provide the attendees with a comprehensive knowledge of basic theory, methodologies, and technologies for outdoor and indoor navigation systems including Global Navigation Satellite Systems (GNSS) like GPS, GALILEO, GLONASS e BEIDOU, regional systems like IRNSS, QZSS, terrestrial radio-localization systems based on 4G and 5G mobile networks, and local area networks (WiFi, Bluetooth, ZigBee, UWB, RF-ID, etc.), inertial navigation systems (INS),and heterogeneous systems (e.g. GNSS+INS).
Additional objective is the ability to apply the previous methodologies and technologies to major applications based on the user position, like intelligent transportation systems (avionics, rail, road, maritime), infomobility, automotive, location based services for smartphones, tablets, mobile computers, and environment monitoring
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Code
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20810268-1 |
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Language
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ITA |
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Type of certificate
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Profit certificate
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Credits
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6
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Scientific Disciplinary Sector Code
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ING-INF/03
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Contact Hours
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48
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Type of Activity
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Core compulsory activities
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Teacher
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Brizzi Michele
(syllabus)
Part I: GNSS fundamentals
- GNSS Architecture: GNSS segments, GNSS signals (GPS, GLONASS, Galileo, BEIDOU).
- GNSS time Reference, coordinate frames, satellite orbits and coordinates computation.
- GNSS Measurements: measurement modelling, atmospheric effects, combination of GNSS measurements.
- Navigation equations, code-based positioning, carrier-based positioning, positioning algorithms.
Part II: GNSS receivers
- Requirements, architectures and designs.
- GNSS signal acquisition and tracking.
- Software-defined GNSS receivers.
Part III: advanced GNSS techniques
- Augmentation systems
- Real-time Kinematics (RTK)
- Precise Point Positioning (PPP): LAMBDA method.
- Kalman filtering
Part IV: Heterogeneous systems
- Inertial sensors, Inertial Navigation Systems (INS), navigation equations
- INS/GNSS integration: loosely-coupled and tightly-coupled INS/GNSS integration.
- Visual-based navigation (camera, LIDAR), Visual-inertial odometry, Simultaneous Localization and Mapping (SLAM).
- terrestrial radio-localization systems based on 4G and 5G mobile networks, and local area networks (WiFi, Bluetooth, ZigBee, UWB, RF-ID, etc.)
Laboratory exercises throughout the course provide the necessary background for going further into the theoretical concepts and their practical implementation.
(reference books)
- J. Sanz Subirana, J.M. Juan Zornoza e M. Hernández-Pajares, "GNSS Data Processing. Volume I: Fundamentals and Algorithms," TM-23/1, European Space Agency, 2013. [online] https://gssc.esa.int/navipedia/GNSS_Book/ESA_GNSS-Book_TM-23_Vol_I.pdf
- P. D. Groves, "Principles of GNSS, Inertial, and Multisensor Integrated Navigation Systems," Second Edition. 2nd ed. Boston, Mass: Artech House, 2013. GNSS Technology and Application Ser. Web. [online] https://ebookcentral.proquest.com/lib/Uniroma3-ebooks/detail.action?pq-origsite=primo&docID=1531533
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Dates of beginning and end of teaching activities
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From 26/09/2022 to 13/01/2023 |
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Delivery mode
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Traditional
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Attendance
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not mandatory
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| Module: NEW GENERATION MOBILE NETWORKS
(objectives)
To acquire general concept on new generation mobile networks (3G, 4G, 5G, 6G) as part of a communication system. To provide an overview on main operating principles of a structured mobile network, such as the available services also from a financial and economic viewpoint, quality requirements, mobility management, security, secrecy and authentication problems, localization services, power control of connected devices, access technologies from wireless devices, evolution of architecture of SW network virtualization, algorithms of array processing to allow dedicated efficient links in modern standards (5G and beyond) between terminals or smart objects connected to the IoT world.
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Code
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20810268-2 |
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Language
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ITA |
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Type of certificate
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Profit certificate
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Credits
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6
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Scientific Disciplinary Sector Code
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ING-INF/03
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Contact Hours
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48
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Type of Activity
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Core compulsory activities
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Teacher
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GIUNTA GAETANO
(syllabus)
Mobile networks with shared access. Networks and services plans, including financial and economic aspects. New generation mobile networks (3G, 4G, 5G, 6G). Provided services and quality of service. Mobility management, security, secrecy and authentication problems. Localization services, power control of connected devices. Access technologies from wireless devices. Evolution of architecture based on SW network virtualization. Algorithms of array processing to allow dedicated efficient links in modern standards (5G and beyond) between terminals or smart objects connected to the IoT world.
Further details on the site: http://host.uniroma3.it/laboratori/sp4te/teaching/tw/program.html
(reference books)
G. Giunta, Lucidi del corso di Telecomunicazioni Wireless. 2017.
G. COLUMPSI, M. LEONARDI, A. RICCI: “UMTS: TECNICHE E ARCHITETTURE PER LE RETI DI COMUNICAZIONI MOBILI MULTIMEDIALI”, SECONDA EDIZIONE; HOEPLI INFORMATICA; NOVEMBRE 2005.
Stefania Sesia, Issam Toufik, Matthew Baker: “LTE - The UMTS Long Term Evolution: From Theory to Practice, 2nd Edition”, Wiley publ.; July 2011.
Mansoor Shafi, Andreas F. Molisch, Peter J. Smith, Thomas Haustein, Peiying Zhu, PrasanDeSilva, Fredrik Tufvesson, Anass Benjebbour, and Gerhard Wunder: “5G: A Tutorial Overview of Standards, Trials, Challenges, Deployment, and Practice. IEEE JOURNAL ON SELECTED AREAS IN COMMUNICATIONS, VOL. 35, NO. 6, JUNE 2017.
Mamta Agiwal, Abhishek Roy, and Navrati Saxena: “Next Generation 5G Wireless Networks: A Comprehensive Survey. IEEE COMMUNICATIONS SURVEYS & TUTORIALS, VOL. 18, NO. 3, THIRD QUARTER 2016.
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Dates of beginning and end of teaching activities
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From 26/09/2022 to 13/01/2023 |
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Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Oral exam
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Università Roma Tre