Elective Streams Software Defined Vehicles
Course Name | Vehicular Communication |
Course Code | 24AT734 |
Program | M. Tech. in Automotive Engineering |
Credits | 3 |
Campus | Coimbatore , Chennai , Bengaluru , Amritapuri , Kochi |
Elective Streams Software Defined Vehicles
Applications of V2X-safety vs. non-safety-use cases – Service requirements of applications – Communication technologies – Mapping service requirements to communication technologies – Fundamental principles of layering- DSRC/WAVE- ETSI ITS-G5 and ARIB architectures – DSRC standard-channelization – SAE J2735 message set dictionary – Basic Safety Message – Introduction to IEEE 1609.2-2016 – IEEE Standard for Wireless Access in Vehicular Environments – Security Services for Applications and Management Messages – Introduction to IEEE 802.11p MAC and PHY layers – Introduction to Cellular V2X for connected cards – standards – spectrum and channels – radio interfaces – applications.
Wireless radio propagation and channel characteristics – pathloss – shadowing and small -scale fading – delay spread and Doppler spread – coherence bandwidth and coherence time – impact of channel impairments on system design – Techniques for combating channel impairments – Digital modulation schemes in 802.11p – Design of OFDM parameters in 802.11p – Transmit power control and transmit masks.
Routing in VANETs – flooding and the Broadcast Storm Problem – Traditional MANET routing- topology based/ table-driven routing protocols – proactive (DSDV) vs. reactive / on-demand (DSR – AODV- DYMO) routing protocols – Geographic routing protocols- Beaconing – DTN and peer-to-peer ideas for VANET routing – Vehicular communication simulations (VEINS, OMNET++, SUMO, SimuLTE) – mobility models – traffic flow models.
Course Objectives
Course Outcomes
CO | CO Description |
CO1 | Understand technologies and system architecture of vehicular networks. |
CO2 | Familiarise on the various vehicular communication protocols and standards. |
CO3 | Analyze vehicular communication technologies for safety and infotainment applications. |
CO4 | Implement vehicular communication networks using simulation Tools. |
CO-PO Mapping
PO1 | PO2 | PO3 | PO4 | PO5 | |
CO1 | 3 | 1 | 1 | 3 | |
CO2 | 2 | 1 | 1 | 3 | |
CO3 | 3 | 2 | 1 | 1 | 3 |
CO4 | 3 | 2 | 1 | 1 | 3 |
Skills acquired
Analysis and design of vehicular communication networks models for vehicular applications.
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