Dafeng Long scite author profile

Dafeng Long

4Publications

34Citation Statements Received

54Citation Statements Given

How they've been cited

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134

Affiliations

Huizhou University, North University of China

Publications

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A Fast Calibration and Compensation Method for Magnetometers in Strap-Down Spinning Projectiles

Long

Zhang

Wei

et al. 2018

Sensors

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Attitude measurement is an essential technology in projectile trajectory correction. Magnetometers have been used for projectile attitude measurement systems as they are small in size, lightweight, and low cost. However, magnetometers are seriously disturbed by the artillery magnetic field during launch. Moreover, the error parameters of the magnetometers, which are calibrated in advance, usually change after extended storage. The changed parameters have negative effects on attitude estimation of the projectile. To improve the accuracy of attitude estimation, the magnetometers should be calibrated again before launch or during flight. This paper presents a fast calibration method specific for a spinning projectile. At the launch site, the tri-axial magnetometer is calibrated, the parameters of magnetometer are quickly obtained by optimal ellipsoid fitting based on a least squares criterion. Then, the calibration parameters are used to compensate for magnetometer outputs during flight. The numerical simulation results show that the proposed calibration method can effectively determine zero bias, scale factors, and alignment angle errors. Finally, a semi-physical experimental system was designed to further verify the performance of the calibration method. The results show that pitch angle error reduces from 3.52° to 0.58° after calibration. The roll angle error is reduced from 2.59° to 0.65°. Simulations and experimental results indicate that the accuracy of magnetometer in strap-down spinning projectile has been greatly enhanced, and the attitude estimation errors are reduced after calibration.

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Orientation estimation algorithm applied to high-spin projectiles

Long

Lin

Zhang

et al. 2014

Meas. Sci. Technol.

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High-spin projectiles are low cost military weapons. Accurate orientation information is critical to the performance of the high-spin projectiles control system. However, orientation estimators have not been well translated from flight vehicles since they are too expensive, lack launch robustness, do not fit within the allotted space, or are too application specific. This paper presents an orientation estimation algorithm specific for these projectiles. The orientation estimator uses an integrated filter to combine feedback from a three-axis magnetometer, two single-axis gyros and a GPS receiver. As a new feature of this algorithm, the magnetometer feedback estimates roll angular rate of projectile. The algorithm also incorporates online sensor error parameter estimation performed simultaneously with the projectile attitude estimation. The second part of the paper deals with the verification of the proposed orientation algorithm through numerical simulation and experimental tests. Simulations and experiments demonstrate that the orientation estimator can effectively estimate the attitude of high-spin projectiles. Moreover, online sensor calibration significantly enhances the estimation performance of the algorithm.

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Synthesis and characterization of AuNPs-modificated Fe2O3/ZnFe2O4 heterostructures for highly sensitive 1-butanol detection

et al. 2021

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Nonenzymetic glucose sensitive device based on morchella shaped nickel-copper layered double hydroxide

Zhao

Huang

et al. 2022

Applied Surface Science

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Dafeng Long

A Fast Calibration and Compensation Method for Magnetometers in Strap-Down Spinning Projectiles

Orientation estimation algorithm applied to high-spin projectiles

Synthesis and characterization of AuNPs-modificated Fe2O3/ZnFe2O4 heterostructures for highly sensitive 1-butanol detection

Nonenzymetic glucose sensitive device based on morchella shaped nickel-copper layered double hydroxide

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