TY - GEN

T1 - Software-defined crowd-shared wireless mesh networks

AU - Abujoda, Ahmed

AU - Sathiaseelan, Arjuna

AU - Rizk, Amr

AU - Papadimitriou, Panagiotis

PY - 2014/11/18

Y1 - 2014/11/18

N2 - Universal access to Internet is crucial, and as such, there have been several initiatives to enable wider access to the Internet. Public AccessWiFi Service (PAWS) is one such initiative that takes advantage of the the available unused capacity in home broadband connections and allows Less-than-Best Effort (LBE) access to these resources, as advocated by Lowest Cost Denominator Networking (LCDNet). PAWS has been recently deployed in a deprived community in Nottingham, and, as any crowd-shared network, it faces limited coverage, since there is a single point of Internet access per guest user, whose availability depends on user sharing policies. To mitigate this problem and extend the coverage, we consider a crowd-shared wireless mesh network (WMN) in which the home routers are interconnected as a mesh. Such a network provides multiple points of Internet access and can enable resource pooling across all available paths to the Internet backhaul. In this paper, we investigate the potential benefits of a crowd-shared WMN for public Internet access by performing a comparative study between such a network and PAWS. To this end, we present a software-defined WMN control plane for the coordination of traffic redirections through the WMN and an algorithm for Internet access point selection. Our simulation results show that a crowd-shared WMN can provide much higher utilization of the shared bandwidth and can accommodate a substantially larger volume of guest user traffic.

AB - Universal access to Internet is crucial, and as such, there have been several initiatives to enable wider access to the Internet. Public AccessWiFi Service (PAWS) is one such initiative that takes advantage of the the available unused capacity in home broadband connections and allows Less-than-Best Effort (LBE) access to these resources, as advocated by Lowest Cost Denominator Networking (LCDNet). PAWS has been recently deployed in a deprived community in Nottingham, and, as any crowd-shared network, it faces limited coverage, since there is a single point of Internet access per guest user, whose availability depends on user sharing policies. To mitigate this problem and extend the coverage, we consider a crowd-shared wireless mesh network (WMN) in which the home routers are interconnected as a mesh. Such a network provides multiple points of Internet access and can enable resource pooling across all available paths to the Internet backhaul. In this paper, we investigate the potential benefits of a crowd-shared WMN for public Internet access by performing a comparative study between such a network and PAWS. To this end, we present a software-defined WMN control plane for the coordination of traffic redirections through the WMN and an algorithm for Internet access point selection. Our simulation results show that a crowd-shared WMN can provide much higher utilization of the shared bandwidth and can accommodate a substantially larger volume of guest user traffic.

UR - http://www.scopus.com/inward/record.url?scp=84917710825&partnerID=8YFLogxK

U2 - 10.1109/WiMOB.2014.6962161

DO - 10.1109/WiMOB.2014.6962161

M3 - Conference contribution

AN - SCOPUS:84917710825

T3 - International Conference on Wireless and Mobile Computing, Networking and Communications

SP - 130

EP - 135

BT - 2014 IEEE 10th International Conference on Wireless and Mobile Computing, Networking and Communications, WiMob 2014

PB - IEEE Computer Society

T2 - 2014 10th IEEE International Conference on Wireless and Mobile Computing, Networking and Communications, WiMob 2014

Y2 - 8 October 2014 through 10 October 2014

ER -