Abstract
Recently, positioning services have received considerable attention. The primary source of the positioning error is non-line-of-sight (NLOS) propagation. To address this problem, we propose a novel NLOS mitigation scheme, in which the geometric relationship between a base station and a mobile station is used. This makes it possible to identify range measurements corrupted by NLOS errors, and the mobilestation can then estimate its position through line-of-sight (LOS)measurements. Moreover, the threshold of the NLOS detector is derivedvia a hybrid method using both the analytical derivationand computer simulation, which significantly reduces the difficultyof identifying thresholds. After identifying the NLOS measurements, a two-step weighted-least-squares algorithm is usedto obtain the localization, in which both range and anglemeasurements are considered. The simulation results revealthat the proposed algorithm yields a high identification probabilityof NLOS measurements, which results in improved localizationperformance.
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