Position and velocity tracking in cellular networks using particle and Kalman filtering with comparison
AuthorOlama, M. M.
Djouadi, S. M.
Charalambous, Charalambos D.
SourceProceedings of the IEEE Conference on Decision and Control
Proceedings of the IEEE Conference on Decision and Control
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This paper presents two methods for tracking a User based on Aulin's Wave scattering channel model. The first method is based on the extended Kalman Alter approach, while the second method is based on the particle Alter approach. Aulin's model takes into account non line of sight and multipath propagation environments, which are Usually encountered in wireless fading channels. The received instantaneous electric Aeld at the base station is a nonlinear function of the mobile location and velocity as Aulin's model indicate. The proposed methods cope With nonlinearities in order to estimate the mobile location and velocity. The assumptions are knowledge of the channel and access to the instantaneous received field, which are obtained through channel sounding samples from the receiver circuitry. In contrast to the extended Kalman Alter tracking approach, the particle Alter approach does not rely on linearized motion models, measurement relations, and Gaussian assumptions. Numerical results are presented to evaluate the accuracy of the proposed methods. © 2006 IEEE.