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We evaluate mobility predictors in wireless networks. Handoff
prediction in wireless networks has long been considered as a mechanism
to improve the quality of service provided to mobile wireless users.
Most prior studies, however, were based on theoretical analysis,
simulation with synthetic mobility models, or small wireless network
traces. We study the effect of mobility prediction for a large
realistic wireless situation.
We tackle the problem by using traces collected from a large production wireless network to evaluate several major families of handoff-location prediction techniques, a set of handoff-time predictors, and a predictor that jointly predicts handoff location and time. We also propose a fallback mechanism, which uses a lower-order predictor whenever a higher-order predictor fails to predict.
We found that low-order Markov predictors, with our proposed fallback mechanisms, performed as well or better than the more complex and more space-consuming compression-based handoff-location predictors. Although our handoff-time predictor had modest prediction accuracy, in the context of mobile voice applications we found that bandwidth reservation strategies can benefit from the combined location and time handoff predictor, significantly reducing the call-drop rate without significantly increasing the call-block rate.
We also developed a prediction-based routing protocol for mobile opportunistic networks. We evaluated and compared our protocol's performance to five existing routing protocols, using simulations driven by real mobility traces. We found that the basic routing protocols are not practical for large-scale opportunistic networks. Prediction-based routing protocols trade off the message delivery ratio against resource usage and performed well and comparable to each other.
Ph.D dissertation. Advisor: David Kotz
Bibliographic citation for this report: [plain text] [BIB] [BibTeX] [Refer]
Or copy and paste:
Libo Song, "Evaluating Mobility Predictors in Wireless Networks for Improving Handoff and Opportunistic Routing." Dartmouth Computer Science Technical Report TR2008-611, January 2008.
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