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Course detail
FEKT-MKA-AKTAcad. year: 2024/2025
Students become familiar with fundamentals of methods, standards and phenomena in the field of vehicular and mobile communication. An emphasis is given on the description of parameters of the transmission channels in the context of V2V and V2I such as channel stationarity, MIMO channel correlation and Doppler spread and shift. Students will gather information on the modelling of the data traffic as well as the real-world vehicular traffic in VANET networks. Students will understand the physical layer architecture of DRSC systems e.g. IEEE 802.11p or cellular systems such as LTE-V. Emphasis is put on explanation of the principles of a 4th and 5th generation mobile systems (LTE).
Language of instruction
Number of ECTS credits
Guarantor
Department
Entry knowledge
Rules for evaluation and completion of the course
Aims
The aim of the course is to get the students familiar with basic concepts and algorithms necessary for the information dissemination in the intra- and inter-vehicular networks including the specifics of the radio channel and function of mobile communication systems.
Study aids
Prerequisites and corequisites
Basic literature
Recommended reading
Lecture
Teacher / Lecturer
Syllabus
2. Communication inside vehicles, CAN, LIN, FlexRay.
3. Automotive ethernet.
4. Standards for V2V communication, DSRC systems IEEE 802.11p.
5. 4G and 5G technologies for V2V and V2I communication.
6. Specifics of wireless communication between vehicles and description of the radio channel, basic terms, and defining properties (Doppler shift, coherence).
7. Methods and principles of measuring time-varying radio channels (in the time and frequency domain).
8. Intelligent transportation systems (transferred administrations, use cases, architecture).
9. Basic principles of autonomous vehicles (lidar, camera, ultrasonic sensors).
10. Localization in automotive technology (GPS, automotive radar systems).
Exercise in computer lab
2. The low-power part of 5G hands-on NB-IoT, CAT-M1
3. Channel sounding 4. Simulation of 802.11p
5. 4G physical channels, synchronization, and processing of LTE downlink signals
6. Multipath propagation
7. S32K3xx Automotive MCUs – Challenges, Multicore and Architecture (NXP)
8. DSI3 communication and ultrasonic distance sensors