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http://dx.doi.org/10.9717/kmms.2014.17.8.946

Mobility Prediction Algorithms Using User Traces in Wireless Networks  

Luong, Chuyen (School of Electronics and Computer Engineering Chonnam National University)
Do, Son (School of Electronics and Computer Engineering Chonnam National University)
Park, Hyukro (School of Electronics and Computer Engineering Chonnam National University)
Choi, Deokjai (School of Electronics and Computer Engineering Chonnam National University)
Publication Information
Journal of Korea Multimedia Society / v.17, no.8, 2014 , pp. 946-952 More about this Journal
Abstract
Mobility prediction is one of hot topics using location history information. It is useful for not only user-level applications such as people finder and recommendation sharing service but also for system-level applications such as hand-off management, resource allocation, and quality of service of wireless services. Most of current prediction techniques often use a set of significant locations without taking into account possible location information changes for prediction. Markov-based, LZ-based and Prediction by Pattern Matching techniques consider interesting locations to enhance the prediction accuracy, but they do not consider interesting location changes. In our paper, we propose an algorithm which integrates the changing or emerging new location information. This approach is based on Active LeZi algorithm, but both of new location and all possible location contexts will be updated in the tree with the fixed depth. Furthermore, the tree will also be updated even when there is no new location detected but the expected route is changed. We find that our algorithm is adaptive to predict next location. We evaluate our proposed system on a part of Dartmouth dataset consisting of 1026 users. An accuracy rate of more than 84% is achieved.
Keywords
Active LeZi Algorithm; Hidden Markov Model Algorithm; Mobility Prediction;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
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1 K. H. Nguyen and W. J. Hwang, "A Mobility Control Architechture Supporting Fast Handover for Future Internet Networks," Journal of Korea Multimedia Society, Vol. 15, No. 12, pp. 1485-1491, 2012.   DOI   ScienceOn
2 M. Liu, "A Study of Mobile Sensing using Smartphones," International Journal of Distributed Sensor Networks, Vol. 2013, Article ID 272916, 2013.
3 L. Song, D. Kotx, R. Jain, and X. He, "Evaluating Location Predictors with Extensive Wi-Fi Mobility Data," Proceedings of INFOCOM 2004, Vol. 2, pp. 1414-1424, 2004.
4 L. Song and D. Kotz, "Evaluating Next-Cell Predictors with Extensive Wi-Fi Mobility Data," IEEE Transactions on Mobile Computing, Vol. 5, No. 12, pp. 1633-1649, 2006.   DOI   ScienceOn
5 A. Bhattacharya and S.K. Das, "LeZi-Update: An Information-Theoretic Framework for Personal Mobility Tracking in PCS Networks," ACM/Kluwer Wireless Networks Journal, Vol. 8, No. 2-3, pp. 121-135, 2002.   DOI   ScienceOn
6 S. Scellato, M. Musolesi, C Mascolo, V. Latora, and A. T. Campbell, "Nextplace: A Spatio-temporal Prediction Framework for Pervasive Systems," Proceedings of 9th International Conference on Pervasive Computing, Springer, Vol. 6696, pp. 152-169, 2011.
7 K. Gopalratnam and D.J. Cook, "Active Lezi: an Incremental Parsing Algorithm for Sequential Prediction," International Journal on Artificial Intelligence Tools, pp. 917-930, 2003.
8 K. Gopalratnam and D.J. Cook, "Online Sequential Prediction via Incremental Parsing: The Active LeZi Algorithm," IEEE Intelligent System. Vol. 22, No. 1, pp. 52-58, 2007.
9 A. Rodriguez-Carrion, C. Garcia-Rubio, and C. Campo, "Performance Evaluation of LZBased Location Prediction Algorithms in Cellular Networks," IEEE Communication Letter, Vol. 14, No. 8, pp. 707-709, 2010.   DOI   ScienceOn
10 H. Fang and J. Ruan, "An Improved Position Prediction Algorithm based on Active LeZi in Smart Home," Proceeding of Computer Science & Service System, pp. 1733-1736, 2012.
11 Y. Chon, H. Shin, E. Talipov, and H. Cha, "Evaluating Mobility Models for Temporal Prediction with High-granularity Mobility Data," Proceedings of PerCom, pp. 206-212, 2012.
12 P.S. Prasad and P. Agrawal, "Movement Prediction in Wireless Networks using Mobility Traces," Proceedings of Consumer Communications and Networking Conference, pp. 1-5, 2010.
13 D. Kotz, T. Henderson, and I. Abyzov, and J. Yeo. CRAWDAD data set dartmouth/campus (v. 2007-02-08). Downloaded from http://crawdad.org/dartmouth/campus/, February 2007.