Title :
Evaluating Next-Cell Predictors with Extensive Wi-Fi Mobility Data
Author :
Song, Libo ; Kotz, David ; Jain, Ravi ; He, Xiaoning
Author_Institution :
Dept. of Comput. Sci., Dartmouth Coll., Hanover, NH
Abstract :
Location is an important feature for many applications, and wireless networks may serve their clients better by anticipating client mobility. As a result, many location predictors have been proposed in the literature, though few have been evaluated with empirical evidence. This paper reports on the results of the first extensive empirical evaluation of location predictors using a two-year trace of the mobility patterns of more than 6,000 users on Dartmouth´s campus-wide Wi-Fi wireless network. The surprising results provide critical evidence for anyone designing or using mobility predictors. We implemented and compared the prediction accuracy of several location predictors drawn from four major families of domain-independent predictors, namely, Markov-based, compression-based, PPM, and SPM predictors. We found that low-order Markov predictors performed as well or better than the more complex and more space-consuming compression-based predictors
Keywords :
Markov processes; client-server systems; computer network management; mobile computing; mobility management (mobile radio); wireless LAN; Markov-based predictors; PPM predictors; SPM predictors; Wi-Fi wireless network; client mobility; compression-based predictors; domain-independent predictors; extensive Wi-Fi mobility data; low-order Markov predictors; next-cell predictors; Application software; Computer Society; Helium; Land mobile radio cellular systems; Mobile computing; Mobile radio mobility management; Pervasive computing; Printing; Wireless LAN; Wireless networks; Mobility prediction; WLAN; Wi-Fi.; cellular network; location prediction; location-aware applications; mobility management; wireless network;
Journal_Title :
Mobile Computing, IEEE Transactions on
DOI :
10.1109/TMC.2006.185
