Car-to-car communication is a promising technology for solving several real-life problems on the road. There is a growing research interest in this technology as one of the practical and challenging applications for wireless communication and multi-hop networks. Although there has been a decent amount of research in this topic recently, there is a lack of real-world experimental studies to augment this work. In this paper, we present results from a real-world experiment consisting of 10 cars making loops in a 5-mile segment of a freeway. Each car has a WiFi personal device communicating and forming multi-hop networks with the rest of the devices. By collecting measurements of connectivity and locations from these devices, and analyzing these measurements, we obtain some interesting observations about this environment. For instance, most connections forming in the freeway were between 15 and 30 seconds with a median of 23 seconds. The average distance at connections and disconnections was 133 meters and 500 meters respectively. The distance and relative velocity were observed to have a significant effect on connection forming and duration. Most connections formed were between cars in the opposite directions of the freeway rather than between those going in the same direction. We believe these results are indicative and useful for wireless protocol and application designers.

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	http://grouper.ieee.org/groups/802/11/Reports/tgp_update.htm
	2	IEEE Standard: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications, 1999.
	3	Charles Perkins. "Ad Hoc Networking". Addison-Wesley Professional, 2001.
	4	Jun Luo and Jean--Pierre Hubaux. "A Survey of Research in Inter-Vehicle Communications". In Embedded Security in Cars - Securing Current and Future Automotive IT Applications, Springer-Verlag, 2006.
	5	Marco Fiore , Jérôme Härri, The networking shape of vehicular mobility, Proceedings of the 9th ACM international symposium on Mobile ad hoc networking and computing, May 26-30, 2008, Hong Kong, Hong Kong, China  [doi>10.1145/1374618.1374654]
	6	David Hadaller , Srinivasan Keshav , Tim Brecht , Shubham Agarwal, Vehicular opportunistic communication under the microscope, Proceedings of the 5th international conference on Mobile systems, applications and services, June 11-13, 2007, San Juan, Puerto Rico  [doi>10.1145/1247660.1247685]
	7	Vladimir Bychkovsky , Bret Hull , Allen Miu , Hari Balakrishnan , Samuel Madden, A measurement study of vehicular internet access using in situ Wi-Fi networks, Proceedings of the 12th annual international conference on Mobile computing and networking, September 23-29, 2006, Los Angeles, CA, USA  [doi>10.1145/1161089.1161097]
	8	Jörg Ott and Dirk Kutscher. "Drive-thru Internet: IEEE 802.11b for Automobile Users". IEEE Infocom 2004.
	9	Richard Gass , James Scott , Christophe Diot, Measurements of In-Motion 802.11 Networking, Proceedings of the Seventh IEEE Workshop on Mobile Computing Systems & Applications, p.69-74, April 06-07, 2006  [doi>10.1109/WMCSA.2006.14]
	10	Fay Hui , Prasant Mohapatra, Experimental characterization of multi-hop communications in vehicular ad hoc network, Proceedings of the 2nd ACM international workshop on Vehicular ad hoc networks, September 02-02, 2005, Cologne, Germany  [doi>10.1145/1080754.1080770]
	11	Xiaolan Zhang , Jim Kurose , Brian Neil Levine , Don Towsley , Honggang Zhang, Study of a bus-based disruption-tolerant network: mobility modeling and impact on routing, Proceedings of the 13th annual ACM international conference on Mobile computing and networking, September 09-14, 2007, Montréal, Québec, Canada  [doi>10.1145/1287853.1287876]
	12	http://tableteer.nokia.com/
	13	http://maemo.org/
	14	T. Clausen , P. Jacquet, Optimized Link State Routing Protocol (OLSR), RFC Editor, 2003
	15	http://www.olsr.org/
	16	S. Cheshire, B. Aboba, and E. Guttman. "Dynamic Configuration of IPv4 Link-Local Addresses". IETF RFC 3927, May 200.