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Intelligent characterisation of space objects with hyperspectral imaging

Massimiliano Vasile, Lewis Walker, R. David Dunphy, Jaime Zabalza, Paul Murray, Stephen Marshall, Vasili G. Savitski

2022Acta Astronautica25 citationsDOIOpen Access PDF

Abstract

This paper presents some initial results on the use of hyperspectral imaging technology and machine learning to characterise the surface composition of space objects and reconstruct their attitude motion. The paper provides a preliminary demonstration that hyperspectral and multispectral analysis of the light absorbed, emitted and reflected by space objects can be used to identify, with some degree of accuracy, the materials composing their surface. The paper introduces a high-fidelity simulation model, developed to test this concept, and a validation of the model against experimental tests in a laboratory environment. The paper shows how to unmix the spectra to provide an estimation of the materials composing the surface facing the sensor. A machine learning approach is then proposed to reconstruct the attitude motion from the time series of spectra.

Topics & Concepts

Hyperspectral imagingMultispectral imageComputer visionComputer scienceArtificial intelligenceFidelityRemote sensingSurface (topology)Motion (physics)Space (punctuation)MathematicsGeologyGeometryTelecommunicationsOperating systemGeochemistry and Geologic MappingRemote-Sensing Image ClassificationInfrared Target Detection Methodologies
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