@techreport{TD:100343,
	att_abstract={{This paper presents GeoVCom, a robust geocast
protocol for vehicular networks. GeoVCom allows a vehicle to
send geocast messages to all vehicles in a given geographical area
without the sender having any knowledge about which vehicles
are present in that area. GeoVCom is ad hoc, scalable and can
handle communications under a wide variability of traffic load.
We investigate the performance of GeoVCom in both simulation
and real world tests using an implementation running on smart
phones. Our field deployment and simulation results show that
the number of transmissions per geocast message is kept low,
significantly outperforming conventional flooding algorithms and
at the same time maintaining a high (over 90%) success rate.}},
	att_authors={rp267p, rj2124, rh7912, ja7858, va037f},
	att_categories={},
	att_copyright={{IEEE}},
	att_copyright_notice={{This version of the work is reprinted here with permission of IEEE for your personal use. Not for redistribution. The definitive version was published in IEEE Vehicular Networking Conference, 2011. {{, 2011-11-14}}
}},
	att_donotupload={},
	att_private={false},
	att_projects={},
	att_tags={geocasting,  vehicular communications,  ad hoc networks},
	att_techdoc={true},
	att_techdoc_key={TD:100343},
	att_url={http://web1.research.att.com:81/techdocs_downloads/TD:100343_DS1_2011-08-02T14:17:36.815Z.pdf},
	author={Rajesh Panta and Rittwik Jana and Robert Hall and Josh Auzins and Vaneet Aggarwal},
	institution={{IEEE Vehicular Networking Conference, 2011}},
	month={November},
	title={{Scalable Geocasting for Vehicular Communications}},
	year=2011,
}