Dual Adaptive Factors-Based Integrated Navigation Performance Improvement for Airborne POS

Bo Wang; Yanhong Liu; Wen Ye

doi:10.1109/JSEN.2019.2925858

Dual Adaptive Factors-Based Integrated Navigation Performance Improvement for Airborne POS

Bo Wang^*, Yanhong Liu, Wen Ye

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

8 Citations (Scopus)

Abstract

Airborne position and orientation system (POS) can provide high accuracy motion parameters for multiple aerial mission loads and has become a vital equipment in aerial remote sensing system. However, the airborne POS often suffers from the systematic kinematic model and observation model inaccuracy, which further affects the accuracy of motion parameters, and the conventional innovation-based adaptive method only deals with the observation model inaccuracy and results in the limited performance improvement. In this paper, a dual adaptive factors filtering algorithm is adopted to deal with the kinematic model and observation model inaccuracy together, which has been validated by the real flight experiment and the results show that the performance improvement has achieved.

Original language	English
Article number	8752048
Pages (from-to)	9479-9485
Number of pages	7
Journal	IEEE Sensors Journal
Volume	19
Issue number	20
DOIs	https://doi.org/10.1109/JSEN.2019.2925858
Publication status	Published - 15 Oct 2019
Externally published	Yes

Keywords

Dual adaptive factors
SINS/GPS integrated navigation system
airborne position and orientation system
filtering algorithm
real-time performance

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10.1109/JSEN.2019.2925858

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title = "Dual Adaptive Factors-Based Integrated Navigation Performance Improvement for Airborne POS",

abstract = "Airborne position and orientation system (POS) can provide high accuracy motion parameters for multiple aerial mission loads and has become a vital equipment in aerial remote sensing system. However, the airborne POS often suffers from the systematic kinematic model and observation model inaccuracy, which further affects the accuracy of motion parameters, and the conventional innovation-based adaptive method only deals with the observation model inaccuracy and results in the limited performance improvement. In this paper, a dual adaptive factors filtering algorithm is adopted to deal with the kinematic model and observation model inaccuracy together, which has been validated by the real flight experiment and the results show that the performance improvement has achieved.",

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AU - Liu, Yanhong

AU - Ye, Wen

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N2 - Airborne position and orientation system (POS) can provide high accuracy motion parameters for multiple aerial mission loads and has become a vital equipment in aerial remote sensing system. However, the airborne POS often suffers from the systematic kinematic model and observation model inaccuracy, which further affects the accuracy of motion parameters, and the conventional innovation-based adaptive method only deals with the observation model inaccuracy and results in the limited performance improvement. In this paper, a dual adaptive factors filtering algorithm is adopted to deal with the kinematic model and observation model inaccuracy together, which has been validated by the real flight experiment and the results show that the performance improvement has achieved.

AB - Airborne position and orientation system (POS) can provide high accuracy motion parameters for multiple aerial mission loads and has become a vital equipment in aerial remote sensing system. However, the airborne POS often suffers from the systematic kinematic model and observation model inaccuracy, which further affects the accuracy of motion parameters, and the conventional innovation-based adaptive method only deals with the observation model inaccuracy and results in the limited performance improvement. In this paper, a dual adaptive factors filtering algorithm is adopted to deal with the kinematic model and observation model inaccuracy together, which has been validated by the real flight experiment and the results show that the performance improvement has achieved.

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Dual Adaptive Factors-Based Integrated Navigation Performance Improvement for Airborne POS

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Keywords

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