Predictable and Scalable Medium Access Control for Vehicular Ad Hoc Networks

Sjöberg Bilstrup, Katrin

January 2009

This licentiate thesis work investigates two medium access control (MAC) methods, when used in traffic safety applications over vehicular ad hoc networks (VANETs). The MAC methods are carrier sense multiple access (CSMA), as specified by the leading standard for VANETs IEEE 802.11p, and self-organizing time-division multiple access (STDMA) as used by the leading standard for transponders on ships. All vehicles in traffic safety applications periodically broadcast cooperative awareness messages (CAMs). The CAM based data traffic implies requirements on a predictable, fair and scalable medium access mechanism. The investigated performance measures are channel access delay, number of consecutive packet drops and the distance between concurrently transmitting nodes. Performance is evaluated by computer simulations of a highway scenario in which all vehicles broadcast CAMs with different update rates and packet lengths. The obtained results show that nodes in a CSMA system can experience unbounded channel access delays and further that there is a significant difference between the best case and worst case channel access delay that a node could experience. In addition, with CSMA there is a very high probability that several concurrently transmitting nodes are located close to each other. This occurs when nodes start their listening periods at the same time or when nodes choose the same backoff value, which results in nodes starting to transmit at the same time instant. The CSMA algorithm is therefore both unpredictable and unfair besides the fact that it scales badly for broadcasted CAMs. STDMA, on the other hand, will always grant channel access for all packets before a predetermined time, regardless of the number of competing nodes. Therefore, the STDMA algorithm is predictable and fair. STDMA, using parameter settings that have been adapted to the vehicular environment, is shown to outperform CSMA when considering the performance measure distance between concurrently transmitting nodes. In CSMA the distance between concurrent transmissions is random, whereas STDMA uses the side information from the CAMs to properly schedule concurrent transmissions in space. The price paid for the superior performance of STDMA is the required network synchronization through a global navigation satellite system, e.g., GPS. That aside since STDMA was shown to be scalable, predictable and fair; it is an excellent candidate for use in VANETs when complex communication requirements from traffic safety applications should be met.

CSMA

self-organizing TDMA

STDMA

medium access control

MAC

vehicular ad hoc networks

VANET

vehicle-to-vehicle communications

V2V

V2X

IEEE 802.11p

WAVE

DSRC

ETSI ITS-G5

ISO CALM M5

real-time communications

scalability

traffic safety

cooperative system

Telecommunications

Telekommunikation

Real-Time Visualization of Construction Equipment Performance / Realtidsvisualisering av materialhantering på bergtäckt

Palomeque, Carlos

January 2014

This thesis is a proof-of-concept project that aims at modify and reuse existing communication protocols of wireless vehicle to vehicle communication in order to build a prototype of a real time graphical application that runs in an embedded environment. The application is a 2D visualization of the flow of material at a quarry and is built on top of existing communication protocols that enable wireless vehicle to vehicle communication according to the 802.11p standard for intelligent transport solutions. These communication protocols have already been used within the Volvo group in other research rojects, but not in a context of a real-time graphical 2D visualization. The application runs on an ALIX embedded motherboard and combined with the necessary hardware represent one node that makes the communication network. The visualization monitors the position of every active node in the network and the flow of material between material locations and crusher that process the material at the quarry. The visualization is implemented in C/C++ using Qt 4.6.2 Graphics View framework.

VTEC

VCE

Volvo

Construction

Equipment

Quarry

CAM

GPS

Qt

Graphics

View

Framework

2D

Real-time

Visualization

ETSI

802.11p

Wireless

V2V

ALIX

Embeeded

Linux

C

C++

XML

Computer Engineering

Datorteknik

Improving Autonomous Vehicle Safety using Communicationsand Unmanned Aerial Vehicles

Dowd, Garrett E.

January 2019

No description available.

Mechanical Engineering

Computer Engineering

Computer Science

Electrical Engineering

Civil Engineering

V2V

V2X

communication

DSRC

C-V2X

radio

antenna

UAV

UAS

UTM

unmanned aerial system

car

simulation

Vissim

traffic

transportation

self-driving

autonomous

Heavy Truck Modeling and Estimation for Vehicle-to-Vehicle Collision Avoidance Systems

Wolfe, Sage M.

20 October 2014

No description available.

Automotive Engineering

Mechanical Engineering

vehicle dynamics

bicycle model

parameter estimation

state estimation

hitch angle

articulation angle

dead reckoning

V2V

vehicle-to-vehicle

collision avoidance

lateral dynamics

tire cornering stiffness

trailer

Eco-Driving of Connected and Automated Vehicles (CAVs)

Kavas Torris, Ozgenur

23 September 2022

No description available.

Systems Design

Technology

Transportation

Mechanical Engineering

Experiments

Engineering

Energy

Design

Computer Science

Automotive Engineering

Eco-Driving

Connected and Automated Vehicle

CAV

fuel economy

optimization

fuel savings

Model-in-the-Loop

MIL

Hardware-in-the-Loop

HIL

Vehicle-in-the-Loop

VIL

Vehicle-to-Infrastructure

V2I

Vehicle-to-Vehicle

V2V

Vehicle-to-Everything

V2X

Unmanned Aerial Vehicles

UAV

speed profile