A major challenge in indoor localization is the presence or absence of line-of-sight (LOS). The absence of LOS, denoted as non-line-of-sight (NLOS), directly affects the accuracy of any localization algorithm because of the induced bias in ranging. The estimation of the spatial distribution of NLOS-induced ranging bias in indoor environments remains a major challenge. In this paper, we propose a novel crowd-based Bayesian learning approach to the estimation of bias fields caused by LOS/NLOS conditions. The proposed method is based on the concept of Gaussian processes and exploits numerous measurements. The performance of the method is demonstrated with extensive experiments.
Arias-De-Reyna, E., Dardari, D., Closas, P., Djuric, P.M. (2018). Estimation of Spatial Fields of Nlos/Los Conditions for Improved Localization in Indoor Environments. IEEE Institute of Electrical and Electronics Engineers [10.1109/SSP.2018.8450840].
Estimation of Spatial Fields of Nlos/Los Conditions for Improved Localization in Indoor Environments
Dardari, Davide;
2018
Abstract
A major challenge in indoor localization is the presence or absence of line-of-sight (LOS). The absence of LOS, denoted as non-line-of-sight (NLOS), directly affects the accuracy of any localization algorithm because of the induced bias in ranging. The estimation of the spatial distribution of NLOS-induced ranging bias in indoor environments remains a major challenge. In this paper, we propose a novel crowd-based Bayesian learning approach to the estimation of bias fields caused by LOS/NLOS conditions. The proposed method is based on the concept of Gaussian processes and exploits numerous measurements. The performance of the method is demonstrated with extensive experiments.| File | Dimensione | Formato | |
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