Implementation and Hardware-In-The-Loop Simulation of a Magnetic Detumbling and Pointing Control Based on Three-Axis Magnetometer Data

Farissi, M. Salim; Carletta, Stefano; Nascetti, A.; Teofilatto, Paolo

doi:10.3390/aerospace6120133

Cited by 16 publications

(8 citation statements)

References 21 publications

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“…The EKF algorithm can be used for both pre-filter and attitude filters [24]. In this paper, a pre-filter design is performed to estimate the magnetic field derivative by a single measurement of the magnetic field vector.…”

Section: System Simulation and Resultsmentioning

confidence: 99%

Extended Kalman Filter Design to Estimate the Attitude of the Nanosatellite System Using Magnetometer

Silva,

McKell,

Parker

2023

Control Syst. Optim. Lett.

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The problem of estimating nonlinear systems is an important issue in many engineering applications. One of these applications is in the nanosatellite for Vehicle-to-everything (V2X) communications, which is used to replace sensors in the event of failure or error. Therefore, the accuracy of pre-filter estimation is of great importance. To control the orientation of a satellite, it is important to estimate the attitude accurately. Time-series estimation is especially important in micro and nanosatellites, whose sensors are usually low-cost and have higher noise levels than high-end sensors. Also, the algorithms should be able to run on systems with very restricted computer power. In this paper, an overview of the algorithms used to determine the attitude of nanosatellites, and especially using only the magnetometer sensor, will be discussed. This paper aims to simulate a nanosatellite system to estimate the magnetic field derivative vector using only the magnetometer data with the desired accuracy. The estimated vectors in the pre-filter, along with the magnetometer sensor data, are used to estimate the attitude of the satellite. The estimation of the state vector consisting of the vector part of quaternion and the angular velocity vector is used for the control calculation. To evaluate the accuracy of this pre-filter, a comparison of the magnetometer vector estimator with the body sensor data has been used.

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Section: System Simulation and Resultsmentioning

confidence: 99%

Extended Kalman Filter Design to Estimate the Attitude of the Nanosatellite System Using Magnetometer

Silva,

McKell,

Parker

2023

Control Syst. Optim. Lett.

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show abstract

“…Kiesbye et al [8] report the development of a framework for hardware and software-in-the-loop verification of MOVE-II (Munich Orbital Verification Experiment 2) CubeSat, with a strong focus on the ADCS, showing how we can enhance the reliability of CubeSats through system-level testing. Farissi et al [9] present and experimentally verify an attitude control strategy based on magnetometer-only measurements for detumbling and pointing of nano-satellites, to be used as a backup solution in case of failure of the primary ADCS, and preventing mission loss. Modenini et al [10] report the in-lab development of a dynamic testbed for nano-satellite attitude verification, placing focus on the thorough performance assessment of all the subsystems building up the facility.…”

Section: Contributionsmentioning

confidence: 99%

Verification Approaches for Nano- and Micro-Satellites

Modenini

Tortora

2020

Aerospace

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“…The MACS has low power consumption and is easy to manufacture. It is well suited to reduce the cost of missions and makes SC hardware simpler and more reliable [8,9]. This is necessary due to the growth in the number of space-related scientific and applied problems in various industries, as well as educational and new technology demonstration projects.…”

Section: Introductionmentioning

confidence: 99%

Comparative Cost Functions Analysis in the Construction of a Reference Angular Motion Implemented by Magnetorquers

2023

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This paper considers a construction procedure of a satellite reference angular motion in the vicinity of an unstable gravitational equilibrium position. The satellite is stabilized on the reference trajectory by the magnetic coils. The problem is solved in several stages. An optimization problem to be solved by the particle swarm optimization method is formulated at each stage. Cost functions are based on the linearized model analysis. The main stage is the construction of a special reference motion, which provides the minimum control torque projection on the geomagnetic induction vector. Optimal geomagnetic field dipole approximation for a given time interval is considered to reduce tracking errors. The paper compares combinations of different cost functions in terms of the terminal attitude accuracy in the presence of perturbations.

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Implementation and Hardware-In-The-Loop Simulation of a Magnetic Detumbling and Pointing Control Based on Three-Axis Magnetometer Data

Cited by 16 publications

References 21 publications

Extended Kalman Filter Design to Estimate the Attitude of the Nanosatellite System Using Magnetometer

Extended Kalman Filter Design to Estimate the Attitude of the Nanosatellite System Using Magnetometer

Verification Approaches for Nano- and Micro-Satellites

Comparative Cost Functions Analysis in the Construction of a Reference Angular Motion Implemented by Magnetorquers

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