DocumentCode
1950966
Title
Hot-spot congestion relief in public-area wireless networks
Author
Balachandran, Anand ; Bahl, Paramvir ; Voelker, Geoffrey M.
Author_Institution
U. C. San Diego, La Jolla, CA, USA
fYear
2002
fDate
2002
Firstpage
70
Lastpage
80
Abstract
Wireless LAN administrators are often called upon to deal with the problem of sporadic user congestion at certain popular spaces ("hot-spots") within the network. To address this problem, we describe and evaluate two new approaches, explicit channel switching and network-directed roaming for providing hot-spot congestion relief while maintaining pre-negotiated user bandwidth agreements with the network. The goals of these algorithms are: (i) to accommodate more users by dynamically providing capacity where it is needed, when it is needed; (ii) to improve overall network utilization by making more efficient use of deployed resources; and (iii) to guarantee at least a minimum amount of bandwidth to users. We propose that both the network and its users should explicitly and cooperatively adapt themselves to changing load conditions depending on their geographic location within the network. We describe how these algorithms enable the network to transparently adapt to user demands and balance load across its access points (APs). We evaluate the effectiveness of these algorithms on improving user service rates and network utilization using simulations. Our algorithms improve the degree of load balance in the system by over 30%, and user bandwidth allocation by up to 52% in comparison to existing schemes that offer little or no load balancing.
Keywords
bandwidth allocation; mobile computing; resource allocation; telecommunication congestion control; telecommunication switching; wireless LAN; access points; bandwidth allocation; explicit channel switching; hot-spot congestion relief; load balancing; mobile computing; network utilization; network-directed roaming; public-area wireless networks; simulations; user bandwidth agreements; user service rates; wireless LAN; Airports; Bandwidth; Capacity planning; Channel allocation; Communications technology; Intelligent networks; Load management; Roaming; Wireless LAN; Wireless networks;
fLanguage
English
Publisher
ieee
Conference_Titel
Mobile Computing Systems and Applications, 2002. Proceedings Fourth IEEE Workshop on
Print_ISBN
0-7695-1647-5
Type
conf
DOI
10.1109/MCSA.2002.1017487
Filename
1017487
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