Simulation Experiment and Analysis of GNSS/INS/LEO/5G Integrated Navigation Based on Federated Filtering Algorithm

Wang, Yuqiang; Zhao, Bohao; Zhang, Wei; Li, Keman

doi:10.3390/s22020550

Cited by 16 publications

(3 citation statements)

References 27 publications

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“…In this regard, most of the current simulations have focused on fragmented topics of the fullchain LEO-PNT solution [9]. They have focused on how to define new orbit models embedded to the broadcast messages [13], [14], [15], orbit determination [16], [17], [18], signal structure designs [19], [20], [21], atmospheric models [22], [23], [24], constellation optimization strategies to improve the GNSS convergence time [6], [25], satellite clocks [26], [27], user performance estimation [28], [29], [30], [31], [32], [33], [34], and integration with distinct sensors [35]. To expand the simulations, there is still a gap in the process of implementing an end-to-end LEO-PNT system, binding all segments in a unified model.…”

Section: Introductionmentioning

confidence: 99%

Simulations of Dedicated LEO-PNT Systems for Precise Point Positioning: Methodology, Parameter Analysis, and Accuracy Evaluation

Prol,

Bhuiyan,

Kaasalainen

et al. 2024

IEEE Trans. Aerosp. Electron. Syst.

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Low Earth orbit (LEO) satellites provide the potential to overcome the current limitations in global navigation satellite systems (GNSS) due to the increased satellite velocity and signal reception power. As the whole LEO segment grows, preliminary studies and simulations have been conducted in the most recent years to identify how to develop a LEO-PNT system and add value to GNSS. To promote the development of LEO-PNT,

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Section: Introductionmentioning

confidence: 99%

Simulations of Dedicated LEO-PNT Systems for Precise Point Positioning: Methodology, Parameter Analysis, and Accuracy Evaluation

Prol,

Bhuiyan,

Kaasalainen

et al. 2024

IEEE Trans. Aerosp. Electron. Syst.

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“…However, as the dimension of the state vector increases, the consumption of computational resources increases, and real-time performance deteriorates. Carlson et al [14,15] proposed a federated Kalman filter [16,17] (FKF), which utilizes the principle of information distribution, not only reducing the computational load but also improving the fault-tolerant performance of integrated navigation. In an FKF, all sub-filters evenly distribute the information sharing factor (ISF) [11,18,19] for information sharing.…”

Section: Introductionmentioning

confidence: 99%

Improved Adaptive Federated Kalman Filtering for INS/GNSS/VNS Integrated Navigation Algorithm

et al. 2023

Applied Sciences

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To address the issue of low positioning accuracy in unmanned vehicles navigating in obstructed spaces due to easily contaminated navigation measurement information, an improved adaptive federated Kalman filtering INS/GNSS/VNS integrated navigation algorithm is proposed. In this algorithm, an inertial navigation system (INS) serves as the common reference system, and, together with the global navigation satellite system (GNSS) and visual navigation system (VNS), they form the subsystems that together make up the main system. In the event of faulty measurement values in the subsystems, a combination of the residual chi-square and sliding-window averaging methods are used for fault detection to improve the fault tolerance of the integrated navigation algorithm. Additionally, an adaptive sharing factor is proposed to adjust the accuracy of the integrated navigation algorithm based on the accuracy of the sub-filters. Simulation experiments demonstrated that, compared with classic federated Kalman filtering, the proposed algorithm reduced the root mean square errors (RMSEs) of the three-dimensional position by 56.4%, 54.8%, and 43.4% and the root mean square errors of the three-dimensional velocity by 71.0%, 72.1%, and 28.4% in the event of sub-filter faults, effectively solving the problem of low positioning accuracy for unmanned vehicles in obstructed spaces while ensuring the real-time performance of the system.

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“…The results showed that the horizontal positioning accuracy and availability of the combined GNSS/5G positioning were considerably higher than those of the GNSS-only network solutions. Wang et al [40] simulated signal sources, such as the GNSS, 5G, and four occlusion scenarios, and performed combined navigation experiments using the Kalman Federation Filter algorithm. The results of the four simulated occlusion scenarios exhibited that the introduction of 5G ranging signals could greatly improve the overall positioning continuity of the Federation Filter.…”

Section: Introductionmentioning

confidence: 99%

Performance research of real-time kinematic/5G combined positioning model

Li¹,

Tu²,

Han³

et al. 2022

Meas. Sci. Technol.

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Global Navigation Satellite System provides real-time and all-weather positioning with high accuracy. Under a good observational environment, short-baseline real-time kinematic (RTK) can provide centimeter-level positioning results. However, RTK without model correction of ionospheric delay will significantly reduce the positioning accuracy, and cannot achieve fast and high-precision positioning when the baseline is too long or heavily occluded. Therefore, we proposed a combined RTK/fifth-generation (5G) mobile communication technology positioning model by combining global positioning system-RTK with the 5G time of arrival observations to improve the positioning accuracy under medium and long baselines. Experimental validation and analysis were conducted based on the measured data of different baseline lengths. Results revealed that the combined RTK/5G positioning model markedly improved the positioning performance in both static and dynamic modes under medium- and long-distance baselines. In particular, the RTK/5G model can also achieve good positioning results in conditions where some satellites are occluded. The combined RTK/5G positioning model is important for achieving high accuracy and real-time and continuous positioning in complex environments.

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Simulation Experiment and Analysis of GNSS/INS/LEO/5G Integrated Navigation Based on Federated Filtering Algorithm

Cited by 16 publications

References 27 publications

Simulations of Dedicated LEO-PNT Systems for Precise Point Positioning: Methodology, Parameter Analysis, and Accuracy Evaluation

Simulations of Dedicated LEO-PNT Systems for Precise Point Positioning: Methodology, Parameter Analysis, and Accuracy Evaluation

Improved Adaptive Federated Kalman Filtering for INS/GNSS/VNS Integrated Navigation Algorithm

Performance research of real-time kinematic/5G combined positioning model

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