Finite-time Complementary Filter-based Attitude Control of Unmanned Aerial Vehicles with Gyro Bias

Linan Wang; Guanghui Wen; Haibo Du; Jialing Zhou

doi:10.1109/TAES.2024.3507775

Finite-time Complementary Filter-based Attitude Control of Unmanned Aerial Vehicles with Gyro Bias

Linan Wang, Guanghui Wen^*, Haibo Du, Jialing Zhou

^*Corresponding author for this work

Advanced Research Institute of Multidisciplinary Science

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

Abstract

Despite recent advances in attitude control methods for unmanned aerial vehicles, achieving fast and precise attitude tracking performance remains challenging in the presence of gyro bias and external disturbances. To address this issue, a filter-based finite-time control scheme is proposed in this paper. Specifically, a finite-time complementary filter is designed to estimate the gyro bias, and a finite-time controller is developed to achieve precise attitude tracking under external disturbances. The global finite-time stability of the closed-loop system is rigorously demonstrated based on the homogeneity theory. Comparative experimental studies validate the proposed control method's effectiveness and superior performance over existing methods.

Original language	English
Journal	IEEE Transactions on Aerospace and Electronic Systems
DOIs	https://doi.org/10.1109/TAES.2024.3507775
Publication status	Accepted/In press - 2024

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Wang, L., Wen, G., Du, H., & Zhou, J. (Accepted/In press). Finite-time Complementary Filter-based Attitude Control of Unmanned Aerial Vehicles with Gyro Bias. IEEE Transactions on Aerospace and Electronic Systems. https://doi.org/10.1109/TAES.2024.3507775

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abstract = "Despite recent advances in attitude control methods for unmanned aerial vehicles, achieving fast and precise attitude tracking performance remains challenging in the presence of gyro bias and external disturbances. To address this issue, a filter-based finite-time control scheme is proposed in this paper. Specifically, a finite-time complementary filter is designed to estimate the gyro bias, and a finite-time controller is developed to achieve precise attitude tracking under external disturbances. The global finite-time stability of the closed-loop system is rigorously demonstrated based on the homogeneity theory. Comparative experimental studies validate the proposed control method's effectiveness and superior performance over existing methods.",

author = "Linan Wang and Guanghui Wen and Haibo Du and Jialing Zhou",

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year = "2024",

doi = "10.1109/TAES.2024.3507775",

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AU - Wang, Linan

AU - Wen, Guanghui

AU - Du, Haibo

AU - Zhou, Jialing

PY - 2024

Y1 - 2024

N2 - Despite recent advances in attitude control methods for unmanned aerial vehicles, achieving fast and precise attitude tracking performance remains challenging in the presence of gyro bias and external disturbances. To address this issue, a filter-based finite-time control scheme is proposed in this paper. Specifically, a finite-time complementary filter is designed to estimate the gyro bias, and a finite-time controller is developed to achieve precise attitude tracking under external disturbances. The global finite-time stability of the closed-loop system is rigorously demonstrated based on the homogeneity theory. Comparative experimental studies validate the proposed control method's effectiveness and superior performance over existing methods.

AB - Despite recent advances in attitude control methods for unmanned aerial vehicles, achieving fast and precise attitude tracking performance remains challenging in the presence of gyro bias and external disturbances. To address this issue, a filter-based finite-time control scheme is proposed in this paper. Specifically, a finite-time complementary filter is designed to estimate the gyro bias, and a finite-time controller is developed to achieve precise attitude tracking under external disturbances. The global finite-time stability of the closed-loop system is rigorously demonstrated based on the homogeneity theory. Comparative experimental studies validate the proposed control method's effectiveness and superior performance over existing methods.

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JO - IEEE Transactions on Aerospace and Electronic Systems

JF - IEEE Transactions on Aerospace and Electronic Systems

ER -

Finite-time Complementary Filter-based Attitude Control of Unmanned Aerial Vehicles with Gyro Bias

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