Poulose, AlwinEmeršic, ŽigaEyobu, Odongo StevenSeog Han, Dong2023-02-032023-02-032020Poulose, A., Emeršič, Ž., Eyobu, O. S., & Han, D. S. (2020, October). An accurate indoor user position estimator for multiple anchor uwb localization. In 2020 international conference on information and communication technology convergence (ICTC) (pp. 478-482). IEEE.978-1-7281-6758-9https://nru.uncst.go.ug/handle/123456789/7512UWB-based positioning systems have been proven to provide a significant high level of accuracy hence offering a huge potential for a variety of indoor applications. However, the major challenges related to UWB localization are multipath effects, excess delay, clock drift, signal interferences and system computational time to estimate the user position. To compensate for these challenges, the UWB system uses multiple anchors in the experiment area and this gives accurate position results with minimum localization errors. However, the use of multiple anchors in the UWB system means processing large amounts of data in the system controller for localization, which leads to high computational time to estimate the current user position. To reduce the complexity of the UWB systems, we propose a position estimator for multiple anchor indoor localization, which uses the extended Kalman filter (EKF). The proposed UWB-EKF estimator was mathematically analysed and the simulation results were compared with classical localization algorithms considering the mean localization errors. In the simulation, three classical localization algorithms: linearized least square estimation (LLSE), weighted centroid estimation (WCE) and maximum likelihood estimation (MLE) were used for performance comparison. Thorough extensive simulation done in this study achieves results which demonstrate the effectiveness of the proposed UWB-EKF estimator for multiple anchor UWB indoor localization.enIndoor localizationUltra-wide band (UWB)Time of arrival (TOA)Extended Kalman filter (EKF)Least square estimationWeighted centroid estimationMaximum likelihood estimationAn Accurate Indoor User Position Estimator For Multiple Anchor UWB LocalizationOther