Visual Inertial Navigation Optimization Method Based on Landmark Recognition

Bochao Hou; Xiaokun Ding; Yin Bu; Chang Liu; Yingxin Shou; Bin Xu

doi:10.1007/978-981-97-0885-7_18

Visual Inertial Navigation Optimization Method Based on Landmark Recognition

Bochao Hou, Xiaokun Ding, Yin Bu, Chang Liu, Yingxin Shou, Bin Xu

School of Automation

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

2 Scopus citations

Abstract

This study utilizes a low-cost, low-power, and highly accurate monocular visual-inertial odometry (VIO) as the navigation algorithm for unmanned aerial vehicles (UAV). However, VIO may experience positioning inaccuracies or even loss in cases of lighting changes and insufficient environmental textures. To mitigate the accumulation of errors in the algorithm, global localization information is introduced. In order to address the issue of positioning accuracy in the absence of Global Navigation Satellite Systems (GNSS), this paper proposes an optimized Visual-Inertial Navigation System (VINS) based on landmark recognition, considering the prior information of UAV flight missions. The system relies solely on visual and IMU information, employing the VINS-Mono algorithm for high-precision positioning. After flying a certain distance, the system recognizes landmarks from a landmark database and obtains their prior coordinate information. Finally, the pose graph and optimization algorithm are used to refine the pose of all keyframes. Experimental results indicate that this navigation system effectively reduces the accumulated errors of VINS and enhances the positioning accuracy in scenarios where GNSS signals are completely unavailable.

Original language	English
Title of host publication	Cognitive Computation and Systems - 2nd International Conference, ICCCS 2023, Revised Selected Papers
Editors	Fuchun Sun, Jianmin Li
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	212-223
Number of pages	12
ISBN (Print)	9789819708840
DOIs	https://doi.org/10.1007/978-981-97-0885-7_18
State	Published - 2024
Event	2nd International Conference on Cognitive Computation and Systems, ICCCS 2023 - Urumqi, China Duration: 14 Oct 2023 → 15 Oct 2023

Publication series

Name	Communications in Computer and Information Science
Volume	2029 CCIS
ISSN (Print)	1865-0929
ISSN (Electronic)	1865-0937

Conference

Conference	2nd International Conference on Cognitive Computation and Systems, ICCCS 2023
Country/Territory	China
City	Urumqi
Period	14/10/23 → 15/10/23

Keywords

GNSS-denied
Target Recognition
VINS-Mono

Access to Document

10.1007/978-981-97-0885-7_18

Cite this

Hou, B., Ding, X., Bu, Y., Liu, C., Shou, Y., & Xu, B. (2024). Visual Inertial Navigation Optimization Method Based on Landmark Recognition. In F. Sun, & J. Li (Eds.), Cognitive Computation and Systems - 2nd International Conference, ICCCS 2023, Revised Selected Papers (pp. 212-223). (Communications in Computer and Information Science; Vol. 2029 CCIS). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-981-97-0885-7_18

Hou, Bochao ; Ding, Xiaokun ; Bu, Yin et al. / Visual Inertial Navigation Optimization Method Based on Landmark Recognition. Cognitive Computation and Systems - 2nd International Conference, ICCCS 2023, Revised Selected Papers. editor / Fuchun Sun ; Jianmin Li. Springer Science and Business Media Deutschland GmbH, 2024. pp. 212-223 (Communications in Computer and Information Science).

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title = "Visual Inertial Navigation Optimization Method Based on Landmark Recognition",

abstract = "This study utilizes a low-cost, low-power, and highly accurate monocular visual-inertial odometry (VIO) as the navigation algorithm for unmanned aerial vehicles (UAV). However, VIO may experience positioning inaccuracies or even loss in cases of lighting changes and insufficient environmental textures. To mitigate the accumulation of errors in the algorithm, global localization information is introduced. In order to address the issue of positioning accuracy in the absence of Global Navigation Satellite Systems (GNSS), this paper proposes an optimized Visual-Inertial Navigation System (VINS) based on landmark recognition, considering the prior information of UAV flight missions. The system relies solely on visual and IMU information, employing the VINS-Mono algorithm for high-precision positioning. After flying a certain distance, the system recognizes landmarks from a landmark database and obtains their prior coordinate information. Finally, the pose graph and optimization algorithm are used to refine the pose of all keyframes. Experimental results indicate that this navigation system effectively reduces the accumulated errors of VINS and enhances the positioning accuracy in scenarios where GNSS signals are completely unavailable.",

keywords = "GNSS-denied, Target Recognition, VINS-Mono",

author = "Bochao Hou and Xiaokun Ding and Yin Bu and Chang Liu and Yingxin Shou and Bin Xu",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.; 2nd International Conference on Cognitive Computation and Systems, ICCCS 2023 ; Conference date: 14-10-2023 Through 15-10-2023",

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doi = "10.1007/978-981-97-0885-7\_18",

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Hou, B, Ding, X, Bu, Y, Liu, C, Shou, Y & Xu, B 2024, Visual Inertial Navigation Optimization Method Based on Landmark Recognition. in F Sun & J Li (eds), Cognitive Computation and Systems - 2nd International Conference, ICCCS 2023, Revised Selected Papers. Communications in Computer and Information Science, vol. 2029 CCIS, Springer Science and Business Media Deutschland GmbH, pp. 212-223, 2nd International Conference on Cognitive Computation and Systems, ICCCS 2023, Urumqi, China, 14/10/23. https://doi.org/10.1007/978-981-97-0885-7_18

Visual Inertial Navigation Optimization Method Based on Landmark Recognition. / Hou, Bochao; Ding, Xiaokun; Bu, Yin et al.
Cognitive Computation and Systems - 2nd International Conference, ICCCS 2023, Revised Selected Papers. ed. / Fuchun Sun; Jianmin Li. Springer Science and Business Media Deutschland GmbH, 2024. p. 212-223 (Communications in Computer and Information Science; Vol. 2029 CCIS).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Visual Inertial Navigation Optimization Method Based on Landmark Recognition

AU - Hou, Bochao

AU - Ding, Xiaokun

AU - Bu, Yin

AU - Liu, Chang

AU - Shou, Yingxin

AU - Xu, Bin

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.

PY - 2024

Y1 - 2024

N2 - This study utilizes a low-cost, low-power, and highly accurate monocular visual-inertial odometry (VIO) as the navigation algorithm for unmanned aerial vehicles (UAV). However, VIO may experience positioning inaccuracies or even loss in cases of lighting changes and insufficient environmental textures. To mitigate the accumulation of errors in the algorithm, global localization information is introduced. In order to address the issue of positioning accuracy in the absence of Global Navigation Satellite Systems (GNSS), this paper proposes an optimized Visual-Inertial Navigation System (VINS) based on landmark recognition, considering the prior information of UAV flight missions. The system relies solely on visual and IMU information, employing the VINS-Mono algorithm for high-precision positioning. After flying a certain distance, the system recognizes landmarks from a landmark database and obtains their prior coordinate information. Finally, the pose graph and optimization algorithm are used to refine the pose of all keyframes. Experimental results indicate that this navigation system effectively reduces the accumulated errors of VINS and enhances the positioning accuracy in scenarios where GNSS signals are completely unavailable.

AB - This study utilizes a low-cost, low-power, and highly accurate monocular visual-inertial odometry (VIO) as the navigation algorithm for unmanned aerial vehicles (UAV). However, VIO may experience positioning inaccuracies or even loss in cases of lighting changes and insufficient environmental textures. To mitigate the accumulation of errors in the algorithm, global localization information is introduced. In order to address the issue of positioning accuracy in the absence of Global Navigation Satellite Systems (GNSS), this paper proposes an optimized Visual-Inertial Navigation System (VINS) based on landmark recognition, considering the prior information of UAV flight missions. The system relies solely on visual and IMU information, employing the VINS-Mono algorithm for high-precision positioning. After flying a certain distance, the system recognizes landmarks from a landmark database and obtains their prior coordinate information. Finally, the pose graph and optimization algorithm are used to refine the pose of all keyframes. Experimental results indicate that this navigation system effectively reduces the accumulated errors of VINS and enhances the positioning accuracy in scenarios where GNSS signals are completely unavailable.

KW - GNSS-denied

KW - Target Recognition

KW - VINS-Mono

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SN - 9789819708840

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BT - Cognitive Computation and Systems - 2nd International Conference, ICCCS 2023, Revised Selected Papers

A2 - Sun, Fuchun

A2 - Li, Jianmin

PB - Springer Science and Business Media Deutschland GmbH

T2 - 2nd International Conference on Cognitive Computation and Systems, ICCCS 2023

Y2 - 14 October 2023 through 15 October 2023

ER -

Hou B, Ding X, Bu Y, Liu C, Shou Y, Xu B. Visual Inertial Navigation Optimization Method Based on Landmark Recognition. In Sun F, Li J, editors, Cognitive Computation and Systems - 2nd International Conference, ICCCS 2023, Revised Selected Papers. Springer Science and Business Media Deutschland GmbH. 2024. p. 212-223. (Communications in Computer and Information Science). doi: 10.1007/978-981-97-0885-7_18

Visual Inertial Navigation Optimization Method Based on Landmark Recognition

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