Vehicular communication networks

Study programs

Teaching information

Teachers

doc. Ing. Ján Gamec, CSc.

Schedule

Learning outcomes

The course provides students with information about modern electronic communication systems in the car. The student will gain knowledge about the concept and system of communication between the control units in the car as well as the possibilities of communication between the vehicle and passengers. They will get acquainted with the systematic division of the network in the vehicle and their distribution in terms of applications. Emphasis in this subject is placed on the philosophy of management, the so-called Ad Hoc Networks for Security Applications. The student will also gain practical experience with vehicle diagnostics over the network, development and integration of control units into the vehicle bus system, especially the CAN bus.

Course outline

1. Intravehicle communication 2. Bus Systems in Cars (CAN, LIN, FLEXRAY, MOST) 3. LAN (IEEE 802.11X) 4. Wireless Systems in Cars for Short range Communication (Bluetooth, ZigBee) 5. Intervehicle Communication 6. Wireless Intervehicle Communication Technologies 7. Long range (Celular technologies, WIMAX) 8. Medium Range (WiFi, DSRC, WAVE) 9. Short Range (UWB) 10. Ad Hoc Network (VANET) 11. Current Issues and Challengies

Completion conditions

Assessment and completion of the course: Credit test and examination Continuous assessment: Student passes the continuous assessment and receives credits when he or she meets the requirement to obtain at least 21% out of 40%. Credit test Final assessment: Student passes the final assessment and passes the examination when he or she meets the requirement to obtain at least 31% out of 60%. Examination Overall assessment: Overall assessment is the sum of the assessments obtained by students in the assessment period. The overall result is determined in accordance with the internal regulations of the Technical University in Košice. (Study Regulations, the internal regulation principles of doctoral studies)

Recommended literature

[1] C. Sommer a F. Dressler, Vehicular Networking, Cambridge: Cambridge University Press, 2015. [2] F. S.-L. Nicolas Navet, „In-vehicle communication networks - a historical perspective and review,“ rev. Industrial Communication Technology Handbook, Luxembourg, University of Luxembourg, 2013, pp. 3-38. [3] Shane, Tuohy; Martin, Glavin; Ciarán, Hughes; Edward, Jones; Mohan, Trivedi; Liam, Kilmartin; , „Intra-Vehicle Networks: A Review,“ IEEE TRANSACTIONS ON INTELLIGENT TRANSPORTATION SYSTEMS, zv. 16, 1. vyd.2, pp. 534-545, 2015. [4] J. Gamec a M. Gamcová, CAN a CANoe, Košice: Technická univerzita v Košiciach, 2014. [5] H. Hartenstein, VANET: Vehicular Applications and Inter-Networking Technologies, Karlsruhe. John Wiley a Sons, Ltd, 2009.

Notes

To successfully complete the course, it is necessary to obtain a credit and successfully pass the exam. This includes the student's participation in educational activities of direct teaching, lectures, exercises, as well as independent study and independent creative activity of the student in processing the semester assignment / assignments, project on a specified topic, to a specified extent, in a specified design of a total of 180 hours intensity of the student's work per semester.

Grade distribution

Total graded students: 27