Correction of rotational blur in images of stars observed by an astroinertial attitude sensor against the background of the daytime sky

,; Vasilyuk, N.N.

doi:10.18287/2412-6179-co-1141

Computer Optics

2023

DOI: 10.18287/2412-6179-co-1141

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Correction of rotational blur in images of stars observed by an astroinertial attitude sensor against the background of the daytime sky

N.N. Vasilyuk

Abstract: A rotational blur correction algorithm is considered as the initial stage of image processing in the problem of attitude measurement using a star tracker. To implement this algorithm, the star tracker must be equipped with a three-axis gyroscope. The algorithm does not guarantee the detection of an image of a star against the background of the daytime sky in one frame but facilitates conditions for subsequent image stacking. The correction aims to localize energy maxima of the blurred star images in pixels wit… Show more

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Cited by 3 publications

References 10 publications

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Calculation of Motion Blur Trajectories in a Digital Image as a Special Problem of Inertial Navigation

Vasilyuk¹

2023

Gyroscopy Navig.

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Calculation of Motion Blur Trajectories in a Digital Image as a Special Problem of Inertial Navigation

Vasilyuk¹

2023

Gyroscopy Navig.

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Kalman Filter for a Particular Class of Dynamic Object Images

Soifer,

Fursov,

Kharitonov

2024

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We discuss the problem of estimating the state of a dynamic object by using observed images generated by an optical system. The work aims to implement a novel approach that would ensure improved accuracy of dynamic object tracking using a sequence of images. We utilize a vector model that describes the object image as a limited number of vertexes (reference points). Upon imaging, the object of interest is assumed to be retained at the center of each frame, so that the motion parameters can be considered as projections onto the axes of a coordinate system matched with the camera's optical axis. The novelty of the approach is that the observed parameters (the distance along the optical axis and angular attitude) of the object are calculated using the coordinates of specified points in the object images. For estimating the object condition, a Kalman-Bucy filter is constructed on the assumption that the dynamic object motion is described by a set of equations for the translational motion of the center of mass along the optical axis and variations in the angular attitude relative to the image plane. The efficiency of the proposed method is illustrated by an example of estimating the object's angular attitude.

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Calibration of intrinsic parameters of a star tracker’s digital camera based on ground-based stars observations, taking into account atmospheric refraction and light aberration

Vasilyuk,

Nefedov,

Sidorova

et al. 2023

jour

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The mathematical model of a digital image contains a set of parameters called camera's intrinsic elements. The numerical values of the elements are unique and must be determined through the individual calibration. The paper considers the problem of fi ve intrinsic elements calibration: the focal length of the lens, two coordinates of the principial point of the image, and two second-order radial distortion coeffi cients. The stars observed by the calibrated camera from the Earth's surface are used as a calibration test pattern. The stellar coordinates are cataloged with very high accuracy, which makes it possible to get rid of complex calibration equipment and reduce the calibration problem to a particular problem of digital image processing. The positions of stars observed from the Earth's surface are distorted by a velocity aberration and atmospheric refraction. These effects are taken into account by introducing distortions into the direction vectors of stars taken from the star catalog. Two approaches to solving the calibration problem are considered, which take into account the unknown orientation of the calibrated camera relative to the Earth in different ways. It has been experimentally shown that both approaches lead to the same results. The discrepancy in calibration measurements after calibration decreases by a factor of 32, to a value on the order of the irremovable angular error in determining the apparent position of a star in a turbulent atmosphere. The results of individual calibration of the camera's intrinsic elements are used in the fi rmware of the star tracker to correct the systematic errors in attitude measurements.

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Correction of rotational blur in images of stars observed by an astroinertial attitude sensor against the background of the daytime sky

Cited by 3 publications

References 10 publications

Calculation of Motion Blur Trajectories in a Digital Image as a Special Problem of Inertial Navigation

Calculation of Motion Blur Trajectories in a Digital Image as a Special Problem of Inertial Navigation

Kalman Filter for a Particular Class of Dynamic Object Images

Calibration of intrinsic parameters of a star tracker’s digital camera based on ground-based stars observations, taking into account atmospheric refraction and light aberration

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