Title :
Achieving air-ground communications in 802.11 networks with three-dimensional aerial mobility
Author :
Yanmaz, Evsen ; Kuschnig, Robert ; Bettstetter, Christian
Author_Institution :
Lakeside Labs., Univ. of Klagenfurt, Klagenfurt, Austria
Abstract :
Increasing availability of autonomous small-size aerial vehicles leads to a variety of applications for aerial exploration and surveillance, transport, and other domains. Many of these applications rely on networks between aerial nodes, that will have high mobility dynamics with vehicles moving in all directions in 3D space and positioning in different orientations, leading to restrictions on network connectivity. In this paper, we propose a simple antenna extension to 802.11 devices to be used on aerial nodes. Path loss and small-scale fading characteristics of air-to-ground links are analyzed using signal strength samples obtained via real-world measurements at 5 GHz. Finally, network performance in terms of throughput and number of retransmissions are presented. Results show that a throughput of 12Mbps can be achieved at distances in the order of 300m.
Keywords :
Nakagami channels; antenna radiation patterns; radio networks; remotely operated vehicles; 3D positioning; 3D space; 802.11 devices; 802.11 networks; aerial exploration; aerial nodes; air-ground communications; air-to-ground links; antenna extension; autonomous small-size aerial vehicles; frequency 5 GHz; high mobility dynamics; network connectivity; network performance; path loss; real-world measurements; signal strength samples; small-scale fading characteristics; surveillance; three-dimensional aerial mobility; Ad hoc networks; Antenna measurements; Dipole antennas; Fading; Throughput; Wireless communication; 3D networks; 802.11; Nakagami fading; UAVs; link modeling; quadrotors; vehicular communications;
Conference_Titel :
INFOCOM, 2013 Proceedings IEEE
Conference_Location :
Turin
Print_ISBN :
978-1-4673-5944-3
DOI :
10.1109/INFCOM.2013.6566747
