Abstract
As the progress of electronics and information processing technology continues, indoor localization has become a research hotspot in wireless sensor networks (WSN). The adverse non-line of sight (NLOS) propagation usually causes large measurement errors in complex indoor environments. It could decrease the localization accuracy seriously. A traditional grey model considers the motion characteristics but does not take the NLOS propagation into account. A robust interacting multiple model (R-IMM) could effectively mitigate NLOS errors but the clipping point is hard to choose. In order to easily cope with NLOS errors, we present a novel filter framework: mixture Gaussian fitting-based grey Kalman filter structure (MGF-GKFS). Firstly, grey Kalman filter (GKF) is proposed to pre-process the measured distance, which can mitigate the process noise and alleviate NLOS errors. Secondly, we calculate the residual which is the difference between the filtered distance of GKF and the measured distance. Thirdly, a soft decision method based on mixture Gaussian fitting (MGF) is proposed to identify the propagation condition through residual value and give the degree of membership. Fourthly, weak NLOS noise is further processed by unscented Kalman filter (UKF). The filtered results of GKF and UKF are weighted using the degree of membership. Finally, a maximum likelihood (ML) algorithm is applied to get the coordinate of the target. MGF-GKFS is not supported by any of the priori knowledge. Full-scale simulations and an experiment are conducted to compare the localization accuracy and robustness with the state-of-the-art algorithms, including robust interacting multiple model (R-IMM), unscented Kalman filter (UKF) and interacting multiple model (IMM). The results show that MGF-GKFS could achieve significant improvement compared to R-IMM, UKF and IMM algorithms.
Highlights
A wireless sensor network (WSN) is an independent self-organized monitoring system
An experiment is conducted to validate the performance of our algorithm in an indoor environment
We propose a novel indoor localization method in a mixed line of sight (LOS)/non-line of sight (NLOS) environment based on grey Kalman filter, mixture Gaussian fitting and unscented Kalman filter
Summary
A wireless sensor network (WSN) is an independent self-organized monitoring system. It is composed of many small sensors that are equipped with power supply and radio frequency modules [1].The sensor nodes are densely placed in unattended detecting regions. A wireless sensor network (WSN) is an independent self-organized monitoring system. It is composed of many small sensors that are equipped with power supply and radio frequency modules [1]. The goal of the system is to complete designated monitoring tasks independently. It can be applied in many smart scenarios [2], such as disaster management, medical treatment, space exploration, security defense and so on. The mobile localization technology is a crucial part of WSN because position information is the foundation of applications based on sensor networks [3]. The coordinate of the mobile node at time k is (x(k), y(k)), k = 1, . The real distance between the i-th beacon node and the mobile node at time step k can be shown as:
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