Spring_semester_BSc_Level_Wireless_techniques_Ts1-ST-38-VI

Spring_semester_BSc_Level_Wireless_techniques_Ts1-ST-38-VI

Z1-PU7
COURSE DESCRIPTION
(faculty stamp)
WYDANIE N1
Strona 1 z 2
2. Course code: Ts1-ST-38-VI
1. Course title: WIRELESS TECHNIQUES
3. Validity of course description: 2014/2015
4. Level of studies: 1st cycle of higher education (BSc)
5. Mode of studies: intramural studies
6. Field of study: ELECTRONICS AND TELECOMMUNICATIONS
(FACULTY SYMBOL) RE2
7. Profile of studies: academic (general)
8. Programme: Electronic Systems Engeneering
9. Semester: VI
10. Faculty teaching the course: Faculty of Electrical Engineering
11. Course instructor: Artur Skórkowski, PhD.
12. Course classification: common course
13. Course status: compulsory
14. Language of instruction: English
15. Pre-requisite qualifications: The basic introductory lectures are: Physics and Metrology. The student begins classes should understand the
basic physical phenomena associated with the wireless signal transmission and know the basic methods of serial data transmission.
16. Course objectives: The aim of the course is to, inter alia, familiarize students with the problems of wireless transmission of information, in
particular, data transmission by GSM mobile telephone network, radio frequency interfaces for short-range wireless access networks to the Internet,
security wireless network and the principles of design of such networks.
17. Description of learning outcomes:
Nr
1.
2.
3.
4.
5.
Learning outcomes description
The student has an ordered knowledge of wireless data
transmission systems, the fundamental properties of
wireless interfaces and the safety of their operation.
The student knows the basic methods, techniques and
tools for the design of wireless data transmission systems
and know how to properly configure such systems.
Students can obtain information from the literature and
the Internet on the operation and configuration of wireless
systems tested at the laboratory.
Student is able to use the technical documentation in
English language when setting up the structure
and parameters of wireless systems.
The student is able to use the properly chosen
computer programs, analyzers and simulators
during the design and analysis of wireless operation.
6.
Students, both individually and through work
in the group performs the tasks assigned.
18. Teaching modes and hours
Method of assessment
Teaching methods
Learning
outcomes
reference code
Written test
Lecture
K_W06 ++
K_W07 ++
Written test
Lecture
K_W10 +
K_W12 ++
Questions from seminar exercises
Seminar
K_U01 ++
Questions from seminar exercises
Seminar
K_U05 ++
Questions from seminar exercises
Seminar
Evaluation realized tasks
Seminar
K_U11 ++
K_U12 +
K_U13 +
K_U14 +
K_K03 ++
K_K04 ++
Lecture – 15 h
Seminar – 30 h
19. Syllabus description:
Lecture (in English)
1. Fundamentals of wireless data transmission.
2. The digital wireless transmission systems.
3. Systems with data transmission through GSM mobile telephone network.
4. The digital data transmission services.
5. AT commands in the telecommunications.
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6. Data transmission in a mobile telecommunications system UMTS.
7. The location of the mobile station in the UMTS system.
8. Access points, cards, bridges and radio modems.
9. Comparison of properties of distributed systems with radio transmission.
10. Interfaces of high-frequency and short-range: HomeRF, IrDA, Bluetooth, IEEE 802.15.4 (ZigBee).
11. Wireless access to the Internet.
12. Terrestrial broadcast transmission: multichannel multipoint distribution systems MMDS and local multipoint distribution systems LMDS.
13. Security in the wireless network: SSID, filtering, authentication.
14. Satellite positioning systems: GPS, GLONASS and Galileo.
15. Design of wireless networks.
Seminar (in English):
1. Selection of parameters for the digital radio communication system.
2. Testing the range of access point and network cards in a WLAN.
3. Testing the WLAN bandwidth.
4. Comparison of the propagation properties and configuration of high-frequency and short-range wireless systems.
5. Implementation of the remote control using wireless interfaces.
6. Testing methods of protection and access control in the wireless systems.
20. Examination: no
21. Primary sources:
1. Waldemar Nawrocki: Rozproszone systemy pomiarowe. Wydawnictwo Komunikacji i Łączności, Warszawa 2006.
2. Simmonds A.: Wprowadzenie do transmisji danych. Wydawnictwo Komunikacji i Łączności, Warszawa 1999.
3. Zieliński B.: Bezprzewodowe sieci komputerowe. Helion, Gliwice 2000.
4. Brent A. Miller, Chatschik Bisdikian: Uwolnij się od kabli Bluetooth. Wydawnictwo Helion, Gliwice 2003.
22. Secondary sources:
1. Waldemar Nawrocki: Komputerowe systemy pomiarowe. Wydawnictwo Komunikacji i Łączności, Warszawa 2002.
2. Zienkiewicz R.: Telefony komórkowe GSM i DCS. WKŁ, Warszawa 1999.
3. Kardyś P., Dąbrowski A.: Bluetooth – nowe możliwości nowoczesnych urządzeń elektronicznych. Elektronizacja, 2001, nr 4, 5, 6.
4. Narkiewicz J.: Globalny system pozycyjny GPS. WKŁ, Warszawa 2003.
5. Internet
23. Total workload required to achieve learning outcomes
Lp.
Teaching mode :
Contact hours / Student workload hours
1
Lecture
15 / 15
2
Classes
/
3
Laboratory
/
4
Project
/
5
BA/ MA Seminar
6
Other
30/30
/
Total number of hours
45 / 45
24. Total hours: 90
25. Number of ECTS credits: 3
26. Number of ECTS credits allocated for contact hours: 2
27. Number of ECTS credits allocated for in-practice hours (laboratory classes, projects): 1
26. Comments:
Approved:
…………………………….
(date, Instructor’s signature)
…………………………………………………
(date , the Director of the Faculty Unit signature)
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