A Review on Mobility Tracking in cellular Network
|International Journal of Engineering Trends and Technology (IJETT)||
|© 2018 by IJETT Journal|
|Year of Publication : 2018|
|Authors : Mrs. V.M.Lakshe , Dr.Mrs. A.V.Patil
|DOI : 10.14445/22315381/IJETT-V59P235|
Mrs. V.M.Lakshe , Dr.Mrs. A.V.Patil"A Review on Mobility Tracking in cellular Network", International Journal of Engineering Trends and Technology (IJETT), V59(4),192-195 May 2018. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group
As wireless services become more pervasive and location- aware, the need to locate and track mobile stations accurately and efficiently becomes increasingly important. A key technical challenge for modern wireless networks is to provide seamless access and quality-of-service (QoS) guarantees for mobile users. QoS provisioning can only be achieved by means of efficient mobility management to handle the frequent handoffs and rerouting of traffic that are experienced by a typical mobile station. This review paper describes the various mobility tracking methods for improving quality-of-service.
 Z. R. Zaidi and B. L. Mark., “ Real-time mobility tracking algorithms for cellular networks based on Kalman filtering,” IEEE Trans. on Mobile Computing, 2005.
 Pubudu N. Pathirana, A.V. Savkin and S.Jha., “ Mobility Modelling and Trajectory Prediction for cellular Networks with Mobile Base Stations,” MobiHoc’2003.
 L. Mihaylova, D. Bull, D. Angelova, and N. Canagarajah, “Mobility tracking in cellular networks with sequential Monte Carlo filters,” in Proc. Eight International Conf. on Information Fusion 2005
 L. Mihaylova, D. Bull, D. Angelova, and N. Canagarajah, “Mobility tracking in cellular networks using Partical Filtering,” IEEE Trans. On Wireless Communication, 2007.
 M.Anisetti,C.A. Ardagna, V. Bellandi, E. Damiani and S.Reale, “Advanced Localisation of Mobile Terminal in Cellular Networks,” I.J. Communication, Network and System Science 2008.
 Z. Yang and X. Wang, “Joint mobility tracking and hard handoff in cellular networks via sequential Monte Carlo filtering,” in Proc. IEEE Conf. on Computer Communications (Infocom) 2002.
 T. Liu, P. Bahl, and I. Chlamtac, “Mobility modeling, location tracking, and trajectory prediction in cellular networks,” IEEE J. Sel. Areas Commun., vol. 16, no. 6, pp. 922–936, Aug. 1998.
 B. Mark and Z. Zaidi, “Robust mobility tracking for cellular networks,” in Proc. IEEE Intl. Communications Conf., May 2002, pp. 445–449.
 S.-Z. Yu and H. Kobayashi, “A hidden semi-Markov model with missing data and multiple observation sequences for mobility tracking,” Signal Processing, vol. 83, no. 2, pp. 235–250, 2003
 F. Gustafsson and F. Gunnarsson, “Mobile positioning using wireless networks: Possibilities and fundamental limitations based on available wireless network measurements,” IEEE Signal Processing Mag., vol. 22, no. 4, pp. 41–53, 2005.
 J. Liu and R. Chen, “Sequential Monte Carlo methods for dynamic systems,” J. American Statistical Association, vol. 93, no. 443, pp. 1032– 1044, 1998.
 F. Gustafsson, F. Gunnarsson, N. Bergman, U. Forssell, J. Jansson, R. Karlsson, and P.-J. Nordlund, “Particle filters for positioning, navigation and tracking,” IEEE Trans. Signal Processing, vol. 50, no. 2, pp. 425–437, 2002.
 R. Chen and J. Liu, “Mixture Kalman filters,” J. Royal Stat. Soc. B, vol. 62, pp. 493–508, 2000.
Mobility model, Cellular networks, Geolocation, pilot signal strength.