DocumentCode
885020
Title
Lexicographic Maxmin Fairness for Data Collection in Wireless Sensor Networks
Author
Chen, Shigang ; Fang, Yuguang ; Xia, Ye
Author_Institution
Univ. of Florida, Gainesville
Volume
6
Issue
7
fYear
2007
fDate
7/1/2007 12:00:00 AM
Firstpage
762
Lastpage
776
Abstract
The ad hoc deployment of a sensor network causes unpredictable patterns of connectivity and varied node density, resulting in uneven bandwidth provisioning on the forwarding paths. When congestion happens, some sensors may have to reduce their data rates. It is an interesting but difficult problem to determine which sensors must reduce rates and how much they should reduce. This paper attempts to answer a fundamental question about congestion resolution: What are the maximum rates at which the individual sensors can produce data without causing congestion in the network and unfairness among the peers? We define the maxmin optimal rate assignment problem in a sensor network, where all possible forwarding paths are considered. We provide an iterative linear programming solution, which finds the maxmin optimal rate assignment and a forwarding schedule that implements the assignment in a low-rate sensor network. We prove that there is one and only one such assignment for a given configuration of the sensor network. We also study the variants of the maxmin fairness problem in sensor networks.
Keywords
ad hoc networks; linear programming; minimax techniques; wireless sensor networks; ad hoc deployment; congestion resolution; data collection; forwarding schedule; iterative linear programming; lexicographic maxmin fairness; maxmin optimal rate assignment; wireless sensor networks; Bandwidth; Base stations; Linear programming; Military computing; Monitoring; Peer to peer computing; Physical layer; Sensor fusion; Wireless sensor networks; Multipath maxmin fairness; data collection applications; iterative linear programming.; wireless sensor networks;
fLanguage
English
Journal_Title
Mobile Computing, IEEE Transactions on
Publisher
ieee
ISSN
1536-1233
Type
jour
DOI
10.1109/TMC.2007.1039
Filename
4212091
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