SylabUZ
| Nazwa przedmiotu | Wireless communication |
| Kod przedmiotu | 06.0-WE-AutP-WirComm-Er |
| Wydział | Wydział Informatyki, Elektrotechniki i Automatyki |
| Kierunek | Automatyka i robotyka |
| Profil | ogólnoakademicki |
| Rodzaj studiów | Program Erasmus pierwszego stopnia |
| Semestr rozpoczęcia | semestr zimowy 2020/2021 |
| Semestr | 5 |
| Liczba punktów ECTS do zdobycia | 2 |
| Typ przedmiotu | obowiązkowy |
| Język nauczania | angielski |
| Sylabus opracował |
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| Forma zajęć | Liczba godzin w semestrze (stacjonarne) | Liczba godzin w tygodniu (stacjonarne) | Liczba godzin w semestrze (niestacjonarne) | Liczba godzin w tygodniu (niestacjonarne) | Forma zaliczenia |
| Wykład | 15 | 1 | - | - | Zaliczenie na ocenę |
| Laboratorium | 30 | 2 | - | - | Zaliczenie na ocenę |
To familiarize students with various wireless transmission standards, designing and selecting the interface system depending on specific requirements.
To develop skills in starting up and testing wireless communication systems.
To mastery by students of designing of hardware as well as software for wireless communication units.
Electronics principles
Introduction to wireless communication. Basic definitions, describing of a variety of transmission media, overview of connecting topologies, classification of transmission types.
Communication using optic medium. Standard IrD, applying infrared and laser lights, design both the hardware and software parts.
Short distance radio transmission. Comparing the parameters of Bluetooth and ZigBee standards, communication in the narrow frequency band, starting up and testing this communication equipment.
Broadband wireless communication. Overview the local network for example WiFi and metropolitan network for example WiMax.
Radio modems. Types overview. Construction and working principles.
Mobile communication. The GSM and UMTS standards, overview of a GSM modem units, data transmission in the GSM network.
Navigation systems; The GPS, Galileo and Glonass standard, differential systems, using a navigation system as a timing source.
Cryptography and data compression. Data transmission without loss of information, auto-correction of transmission errors
Lecture, laboratory exercises.
| Opis efektu | Symbole efektów | Metody weryfikacji | Forma zajęć |
Lecture – the main condition to get a pass are sufficient marks in written tests conducted at least once per semester.
Laboratory – the main condition to get a pass is scoring sufficient marks for all laboratory exercises.
Calculation of the final grade: lecture 40% + laboratory 60%
1. Dick Eastman, The Latest in GPS Technology, Copyright by Dick Eastman, 2007
2. L.e Harte, Introduction to Data Networks, 2nd Edition ALTHOS Publishing, 2006
3. S. Gibilisco, Handbook of Radio and Wireless Technology, McGraw-Hill, 1998
4. L. Harte, Wieless technology Basics, ALTHOS Publishing, 2004
5. L. Harte, D. Eckard, Introduction to Optical Communication, ALTHOS Publishing, 2006
6. L. Harte, Introduction to GSM, 2nd Edition ALTHOS Publishing, 2009
7. L. Harte, B. Levitan GPS Quick Course Book, ALTHOS Publishing, 2007
Zmodyfikowane przez dr hab. inż. Wojciech Paszke, prof. UZ (ostatnia modyfikacja: 05-05-2020 12:43)
