2023
DOI: 10.1109/taes.2023.3315220
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Wavelet-Adaptive Interference Cancellation for Underdetermined Platforms: Enhancing Boomless Magnetic Field Measurements on Compact Spacecraft

Alex P. Hoffmann,
Mark B. Moldwin

Abstract: Spacecraft magnetic field measurements are frequently degraded by stray magnetic fields originating from onboard electrical systems. These interference signals can mask the natural ambient magnetic field, reducing the quality of scientific data collected. Traditional approaches involve positioning magnetometers on mechanical booms to minimize the influence of the spacecraft's stray magnetic fields. However, this method is impractical for resource-constrained platforms, such as CubeSats, which necessitate compa… Show more

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Cited by 2 publications
(1 citation statement)
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“…The appropriate technical solution to meet the measurement requirements is therefore to place two sensors on a boom, at different distances from the spacecraft. This provides redundancy, but also the opportunity to perform gradiometry to characterize any magnetic field signatures generated by the spacecraft, should they be detectable (e.g., Georgescu et al, 2008;Ream et al, 2021), as well as more advanced signal processing techniques (e.g., Hoffmann & Moldwin, 2023). This solution has the highest heritage, being the implementation of choice on the vast majority of missions with measurement requirements comparable to those of Vigil.…”
Section: Magnetic Cleanlinessmentioning
confidence: 99%
“…The appropriate technical solution to meet the measurement requirements is therefore to place two sensors on a boom, at different distances from the spacecraft. This provides redundancy, but also the opportunity to perform gradiometry to characterize any magnetic field signatures generated by the spacecraft, should they be detectable (e.g., Georgescu et al, 2008;Ream et al, 2021), as well as more advanced signal processing techniques (e.g., Hoffmann & Moldwin, 2023). This solution has the highest heritage, being the implementation of choice on the vast majority of missions with measurement requirements comparable to those of Vigil.…”
Section: Magnetic Cleanlinessmentioning
confidence: 99%