Backup Wi-Fi Ad-Hoc Network for Emergency Response in Scenarios with Sporadic Connectivity and Primary Users

Author

Cardei, Ionut ; Yueshi Wu ; Junco, James

Author_Institution

Florida Atlantic Univ., Boca Raton, FL, USA

fYear

2014

Firstpage

66

Lastpage

73

Abstract

Inter-agency emergency response operations are sometimes hindered by a lack of common communication technology or by circumstances that render their networks unusable. We present a protocol architecture based on ubiquitous WiFi terminals (smartphones) that could be used for backup communications when everything else fails. If WLAN primary users (access points) are present, the channel selection mechanism selects alternate channels without the need of a common control channel. To deal with a sparse and disconnected topology, our mission-aware delay-tolerant routing algorithm uses short-term contact prediction and otherwise distributes packets to disconnected subnets without network-wide flooding.

Keywords

ad hoc networks; channel allocation; delay tolerant networks; emergency management; multi-access systems; routing protocols; smart phones; telecommunication network topology; ubiquitous computing; wireless LAN; WLAN primary users; Wi-Fi ad-hoc network; access points; channel selection mechanism; control channel; interagency emergency response operations; mission-aware delay-tolerant routing algorithm; network-wide flooding; protocol architecture; short-term contact prediction; smartphones; sporadic connectivity; ubiquitous WiFi terminals; Ad hoc networks; Educational institutions; Emergency services; IEEE 802.11 Standards; Mobile communication; Mobile computing; DTN; ad-hoc wireless networks; delay-tolerant networking; routing; spectrum agility;

fLanguage

English

Publisher

ieee

Conference_Titel

Mobile Ad-hoc and Sensor Networks (MSN), 2014 10th International Conference on

Type

conf

DOI

10.1109/MSN.2014.16

Filename

7051752