Date of Completion
3-29-2013
Embargo Period
3-28-2013
Keywords
fault performance monitoring wlan
Major Advisor
Bing Wang
Associate Advisor
Reda A. Ammar
Associate Advisor
Lester Lipsky
Associate Advisor
Jun-Hong Cui
Associate Advisor
Zhijie Shi
Field of Study
Computer Science and Engineering
Degree
Doctor of Philosophy
Open Access
Open Access
Abstract
Air sniffering is a widely-used and effective technique to monitor access points in WLANs. This technique, however, requires a large number of sniffers and generates a large amount of data. These challenges can be overcome by channel sampling, where each sniffer samples the network traffic by visiting multiple channels periodically. In the first part of the dissertation, we address an important problem in channel sampling, namely, how to select channels for sniffers to reduce monitoring cost. Specifically, we study two channel selection problems. Both of them require that each AP be monitored by at least one sniffer, and in addition, one problem minimizes the maximum number of channels that a sniffer listens to, while the other minimizes the total number of channels that the sniffers listen to. We propose three algorithms, one based on integer program, LP-relaxation, and greedy heuristic, to solve each problem. The performance of the algorithms is evaluated extensively using real-world traces.
Recommended Citation
Chen, Xian, "Fault and Performance Monitoring in Wireless LANs" (2013). Doctoral Dissertations. 29.
https://digitalcommons.lib.uconn.edu/dissertations/29