A Hardware Implementation of Flexible Attitude Determination and Control System for Two-Axis-Stabilized CubeSat

Gaber, Khaled; Mashade, Mohamed B. El; Aziz, Ghada A. Abdel

doi:10.1007/s42835-020-00352-6

“…So as to finally achieve the goal of win-win for consumers and businesses. Further elaborated on precision marketing, he believed that precision marketing is to achieve precise positioning through technical means [27].…”

Section: Related Workmentioning

confidence: 99%

Precision Marketing Optimization Model of e-Commerce Platform Based on Collaborative Filtering Algorithm

Yu

¹

2022

Wireless Communications and Mobile Computing

7

0

1

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e-commerce mode shows great modern commercial value. In particular, online shopping has become a fashion and trend for people because of its convenience and rapidness. How to find the information users that need accurately and quickly in the increasing network information and recommend products is a big problem. Although precision marketing was mainly used in e-commerce activities in the past, due to factors such as the technical basis and data analysis ability at that time, there was not enough technical ability and theoretical basis to deeply mine and make use of the existing data. The collaborative filtering algorithm is one of the most widely used and successful recommendation techniques, but it has obvious defects. In this paper, the nearest neighbor collaborative filtering recommendation algorithm based on statistical eigenvalue classification is proposed in the collaborative filtering algorithm. By calculating the similarity between items, the user’s rating of unrated items is preliminarily predicted, the nearest neighbor of items is formed, and the classified cluster of items is formed. The matrix is filled by the similarity between related items. The cold treatment problem is solved under the optimization of the ant colony algorithm. In the experiment of the model, the optimization rate for the cold start problem is 87.3%.

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“…Although the 3 axis MEMS gyroscopes yield an accurate attitude information on a short time period, due to the error accumulation effect known as gyroscope drift an absolute attitude information is required as well, which is provided by the thermal imaging infrasensors in our case. In earlier works this kind of absolute attitude information was usually gathered by a 3-axis magnetometer and an optical Sun sensor (see e.g., [1,5,11,14]). The use of infrasensors is more convenient in the sense that as opposed to magnetometers they can be built-in parts of the satellite and do not need an external boom to be mounted on.…”

Section: Attitude Determination With Kalman Filtermentioning

confidence: 99%

Attitude determination for nano-satellites – II. Dead reckoning with a multiplicative extended Kalman filter

Takátsy

¹

,

Bozóki

²

,

Dálya

³

et al. 2021

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This paper is the second part of a series of studies discussing a novel attitude determination method for nano-satellites. Our approach is based on the utilization of thermal imaging sensors to determine the direction of the Sun and the nadir with respect to the satellite with sub-degree accuracy. The proposed method is planned to be applied during the Cubesats Applied for MEasuring and LOcalising Transients (CAMELOT) mission aimed at detecting and localizing gamma-ray bursts with an efficiency and accuracy comparable to large gamma-ray space observatories. In our previous work we determined the spherical projection function of the MLX90640 infrasensors planned to be used for this purpose. We showed that with the known projection function the direction of the Sun can be located with an overall accuracy of $$\sim 40^\prime$$ ∼ 40 ′ . In this paper we introduce a simulation model aimed at testing the applicability of our attitude determination approach. Its first part simulates the orbit and rotation of a satellite with arbitrary initial conditions while its second part applies our attitude determination algorithm which is based on a multiplicative extended Kalman filter. The simulated satellite is assumed to be equipped with a GPS system, MEMS gyroscopes and the infrasensors. These instruments provide the required data input for the Kalman filter. We demonstrate the applicability of our attitude determination algorithm by simulating the motion of a nano-satellite on Low Earth Orbit. Our results show that the attitude determination may have a 1$$\sigma$$ σ error of $$\sim 30'$$ ∼ 30 ′ even with a large gyroscope drift during the orbital periods when the infrasensors provide both the direction of the Sun and the Earth (the nadir). This accuracy is an improvement on the point source detection accuracy of the infrasensors. However, the attitude determination error can get as high as 25$$^{\circ }$$ ∘ during periods when the Sun is occulted by the Earth. We show that following an occultation period the attitude information is immediately recovered by the Kalman filter once the Sun is observed again.

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“…Although the 3 axis MEMS gyroscopes yield an accurate attitude information on a short time period, due to the error accumulation effect known as gyroscope drift an absolute attitude information is required as well, which is provided by the thermal imaging infrasensors in our case. In earlier works this kind of absolute attitude information was usually gathered by a 3-axis magnetometer and an optical Sun sensor (see e.g., Ni et al 2011;Springmann et al 2012;Baroni 2018;Gaber et al 2020). The use of infrasensors is more convenient in the sense that as opposed to magnetometers they can be built-in parts of the satellite and do not need an external boom to be mounted on.…”

Section: Attitude Determination With Kalman Filtermentioning

confidence: 99%

Attitude determination for nano-satellites -- II. Dead reckoning with a multiplicative extended Kalman filter

Takátsy,

Bozóki,

Dálya

et al. 2021

Preprint

0

View full text Add to dashboard Cite

This paper is the second part of a series of studies discussing a novel attitude determination method for nano-satellites. Our approach is based on the utilization of thermal imaging sensors to determine the direction of the Sun and the nadir with respect to the satellite with sub-degree accuracy. The proposed method is planned to be applied during the Cubesats Applied for MEasuring and LOcalising Transients (CAMELOT) mission aimed at detecting and localizing gamma-ray bursts with an efficiency and accuracy comparable to large gamma-ray space observatories. In our previous work we determined the spherical projection function of the MLX90640 infrasensors planned to be used for this purpose. We showed that with the known projection function the direction of the Sun can be located with an overall accuracy of ∼ 40 .

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A Hardware Implementation of Flexible Attitude Determination and Control System for Two-Axis-Stabilized CubeSat

Cited by 5 publications

References 20 publications

Precision Marketing Optimization Model of e-Commerce Platform Based on Collaborative Filtering Algorithm

Precision Marketing Optimization Model of e-Commerce Platform Based on Collaborative Filtering Algorithm

Attitude determination for nano-satellites – II. Dead reckoning with a multiplicative extended Kalman filter

Attitude determination for nano-satellites -- II. Dead reckoning with a multiplicative extended Kalman filter

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