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Integrated navigation fusion strategy of INS/UWB for indoor carrier attitude angle and position synchronous tracking.

Fan Q, Wu Y, Hui J, Wu L, Yu Z, Zhou L - ScientificWorldJournal (2014)

Bottom Line: Simulation results show that the two subsystems are complementary.Secondly, integrated navigation data fusion strategy of INS/UWB based on Kalman filtering theory is proposed.Finally, an indoor experiment platform is established to verify the integrated navigation theory of INS/UWB, which is geared to the needs of coal mine working environment.

View Article: PubMed Central - PubMed

Affiliation: Key Laboratory of Advanced Process Control for Light Industry, Ministry of Education, Jiangnan University, Wuxi 214122, China.

ABSTRACT
In some GPS failure conditions, positioning for mobile target is difficult. This paper proposed a new method based on INS/UWB for attitude angle and position synchronous tracking of indoor carrier. Firstly, error model of INS/UWB integrated system is built, including error equation of INS and UWB. And combined filtering model of INS/UWB is researched. Simulation results show that the two subsystems are complementary. Secondly, integrated navigation data fusion strategy of INS/UWB based on Kalman filtering theory is proposed. Simulation results show that FAKF method is better than the conventional Kalman filtering. Finally, an indoor experiment platform is established to verify the integrated navigation theory of INS/UWB, which is geared to the needs of coal mine working environment. Static and dynamic positioning results show that the INS/UWB integrated navigation system is stable and real-time, positioning precision meets the requirements of working condition and is better than any independent subsystem.

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Related in: MedlinePlus

Dynamic tracking error of position.
© Copyright Policy - open-access
Related In: Results  -  Collection


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fig27: Dynamic tracking error of position.

Mentions: As the signal frequency of INS is100Hz, and UWB is 10 Hz, system fusion frequency is selected for 10 Hz, so filtering cycle is 0.1 s, and test time is set to 250 s. As shown in Figure 20, Y coordinate is set to 1, the initial position P0 = (0, 1), and the termination position P1 = (20, 1). The results are shown in Figures 26 and 27.


Integrated navigation fusion strategy of INS/UWB for indoor carrier attitude angle and position synchronous tracking.

Fan Q, Wu Y, Hui J, Wu L, Yu Z, Zhou L - ScientificWorldJournal (2014)

Dynamic tracking error of position.
© Copyright Policy - open-access
Related In: Results  -  Collection

Show All Figures
getmorefigures.php?uid=PMC4121039&req=5

fig27: Dynamic tracking error of position.
Mentions: As the signal frequency of INS is100Hz, and UWB is 10 Hz, system fusion frequency is selected for 10 Hz, so filtering cycle is 0.1 s, and test time is set to 250 s. As shown in Figure 20, Y coordinate is set to 1, the initial position P0 = (0, 1), and the termination position P1 = (20, 1). The results are shown in Figures 26 and 27.

Bottom Line: Simulation results show that the two subsystems are complementary.Secondly, integrated navigation data fusion strategy of INS/UWB based on Kalman filtering theory is proposed.Finally, an indoor experiment platform is established to verify the integrated navigation theory of INS/UWB, which is geared to the needs of coal mine working environment.

View Article: PubMed Central - PubMed

Affiliation: Key Laboratory of Advanced Process Control for Light Industry, Ministry of Education, Jiangnan University, Wuxi 214122, China.

ABSTRACT
In some GPS failure conditions, positioning for mobile target is difficult. This paper proposed a new method based on INS/UWB for attitude angle and position synchronous tracking of indoor carrier. Firstly, error model of INS/UWB integrated system is built, including error equation of INS and UWB. And combined filtering model of INS/UWB is researched. Simulation results show that the two subsystems are complementary. Secondly, integrated navigation data fusion strategy of INS/UWB based on Kalman filtering theory is proposed. Simulation results show that FAKF method is better than the conventional Kalman filtering. Finally, an indoor experiment platform is established to verify the integrated navigation theory of INS/UWB, which is geared to the needs of coal mine working environment. Static and dynamic positioning results show that the INS/UWB integrated navigation system is stable and real-time, positioning precision meets the requirements of working condition and is better than any independent subsystem.

Show MeSH
Related in: MedlinePlus