Vehicles could communicate with each other using vehicle-to-vehicle (V2V) communication networks. This would allow them to exchange information to provide safety warnings and traffic information without needing infrastructure. The document discusses research on V2V systems and applications, including extending driving vision, accident detection, and traffic management. It then describes a project to build a V2V communication platform using Raspberry Pi devices and an ad-hoc mesh network to enable applications like traffic flow management and group messaging between vehicles.

1. Imagine living in a world where
cars could talk

2. Introduction
Body
Idea
Literature review
Motivation
Approach
Standing out
Challenges
Final Product
Applications
Conclusion
2

3. 3
Ibrahim
El-Sayed
Mohamed
Zaki
Mohamed
Shawkey
Ankur
Dharane
Islam El
Tayar Dr
Sherif El Kassas
Dr
Mohamed Shalan
Team Members

4. V2V communication platform
via adhoc network
4

5. How much time, on average, do we spend in cars?
Americans spend around 26 days a year in cars
How about Egyptians?
6
Egyptians spend 1000 hours in their cars in a year
That’s around 40 days

6. Vehicle to vehicle Communication Systems (V2V) are
an emerging type of networks in which vehicles use a
dynamic wireless exchange of data between nearby
vehicles providing each other with information, such
as safety warnings and traffic information.
7

7. 7
Time spent in cars
Extend driving vision
Communication is development
No infrastructure

8. 8

9. Rapid research progress in inter-vehicle communication
• Applies to real life activities
• Great Market potential
Phased Implemented in Japan
• A beacon system for collecting traffic updates
10

10. Computer Science and Information Engineering, National Chung
Cheng University, Taiwan (Chiu and Hwang)
• Allow units in power-abundant vehicle to provide services to those in smaller
vehicles
• Develops a communication framework, called Session Initiation Protocol -
Based Safety/Vehicular Information Delivery (SVID) Framework
• Providing drivers with time-sensitive information services
• safety information
• active navigation information
• With update mechanisms
11

11. Procedures
• The FLOOD message - a high priority message, large power
abundant vehicles must broadcast on-the-fly when they receive
a FLOOD request.
• The ADVISE method is a bi-direction transmission that will be
used for vehicle navigation purposes
12

12. School of Information Technology and Engineering, University of
Ottawa, (Casteigts, Nayak and Stojmenovic)
Vehicle-to-Vehicle & Vehicle-to-Infrastructure & Vehicle-to-Roadside
13

13. Faculty of Engineering, Dalhousie University
Maen M. Artimy, William Robertson, and William J. Phillips
Connection Lifetime
Velocity Effect
Distance Effect
Vehicle Density effect
14

14. • Genetic Algorithm-based Dynamic Vehicle Route Search using Car-to-Car
Communication
(Oh, Na, Yang, Park, Nang, Kim)
Tackles genetic algorithms for route searching
• Vehicle ad hoc networks: applications and related technical issues
IEEE communications journal
(Toor, Inira, Muhlethaler and Laouiti)
Tackles Security
• Unicast routing protocols for vehicular ad hoc networks: A critical comparison and
classification University of Kentucky
Talks about communication paradigms
Different V2V protocols and their algorithms
15

15. 15
Communication ModuleProcessing Module
Raspberry Pi
Sensors

16. Software development model:
Spiral model
17

17. 17
First mode of operations

18. 18
Second mode of operations

19. Framework not an application
Decentralized
Adhoc network
Extendibility
No Internet connection
Platform Independent
Price
20

20. 20
Time constraint
Bandwidth constraint
Testing
Information Integrity

21. 21

22. Traffic route management
Accident detection
Special node prioritization
23

23. Virtual carpool
Messaging between cars
24

24. 24
Oct Nov Dec Jan Feb Mar Apr May
Research &
review
similar
projects
Finish SRS
Document
Finalizing
Platform
POC
Applications
Finalize all
documents
Working
on
network
platform
Testing
Final
Presentation
and Demo

25. Raspberry Pi Device
Ad-Hoc Mesh network
Applications
Traffic Flow management
Group Talk service
Framework
26

26. 26
Stübing, Hagen. Multilayered Security and Privacy Protection in Car -to-X Networks
: Solutions from Application down to Physical Layer. Dordrecht:
Springer, 2013. Ebook Library. Web. 03 Nov. 2013.
Chiu, and Hwang. "Communication Framework for Vehicle Ad Hoc Network on
Freeways."Telecommunication Systems Volume 50 (2012): 243-56.
Print.
Saito, M.; Tsukamoto, J.; Umedu, T.; Higashinoz, T., "Evaluation of inter-vehicle
ad-hoc communication," Advanced Information Networking and
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vol.1, no., pp.78,83 vol.1, 28-30 March 2005
Artimy, M.M.; Robertson, W.; Phillips, William J., "Connectivity in inter-vehicle ad
hoc networks," Electrical and Computer Engineering, 2004. Canadian
Conference on , vol.1, no., pp.293,298 Vol.1, 2-5 May 2004

27. Toor, Y.; Muhlethaler, P.; Laouiti, A., "Vehicle Ad Hoc networks: applications and
related technical issues," Communications Surveys & Tutorials, IEEE ,
vol.10, no.3, pp.74,88, Third Quarter 2008
OH, B. Genetic Algorithm-based Dynamic Vehicle Route Search using Car-to-Car
Communication. Advances in electrical and computer engineering
10.4 30 Nov 2010: 81-86. Faculty of Electrical Engineering and
Computer Science, Stefan cel Mare University of Suceava. 03 Nov
2013.
"Mercedes-Benz TV: The New Car-to-X Technology." YouTube. YouTube, 27 Aug.
2013. Web. 03 Nov. 2013.
Casteigts, Arnaud, Amiya Nayak, and Ivan Stojmenovic. "Communication
Protocols For Vehicular Ad Hoc Networks."Wireless Communications
& Mobile Computing 11.5 (2011): 567-582. Computers & Applied
Sciences Complete. Web. 3 Nov. 2013.
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28. David Tacconi, Daniele Miorandi, Iacopo Carreras, Francesco Chiti, Romano
Fantacci, Using wireless sensor networks to support intelligent
transportation systems, Ad Hoc Networks, Volume 8, Issue 5, July
2010, Pages 462-473, ISSN 1570-8705,
http://dx.doi.org/10.1016/j.adhoc.2009.12.007.
James Bernsen, D. Manivannan, Unicast routing protocols for vehicular ad hoc
networks: A critical comparison and classification, Pervasive and
Mobile Computing, Volume 5, Issue 1, February 2009, Pages 1-18,
ISSN 1574-1192, http://dx.doi.org/10.1016/j.pmcj.2008.09.001.
Dikaiakos, M.D.; Florides, A.; Nadeem, T.; Iftode, L., "Location-Aware Services over
Vehicular Ad-Hoc Networks using Car-to-Car
Communication," Selected Areas in Communications, IEEE Journal
on , vol.25, no.8, pp.1590,1602, Oct. 2007
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29. http://vector-magz.com/wp-content/uploads/2013/03/carton-box-vector.png
http://www.raspberrypi.org/wp-content/uploads/2012/03/Raspi_Colour_R.png
http://barossabackpackers.com.au/wp-content/uploads/2011/10/Wifi.png
http://techzonie.com/wp-content/uploads/2013/04/linuxdistro.png
http://fc04.deviantart.net/fs28/i/2008/117/7/2/Cairo_Has_No_Traffic_Lights_by_AndySerrano.jpg
http://al-shorfa.com/shared/images/2013/02/27/Egypt-cairo-traffic-650_416.jpg
http://ecx.images-amazon.com/images/I/41epWssM4bL._SY300_.jpg
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