Tomas Kohout, Antti Näsilä, Tuomas Tikka, Mikael Granvik, Antti Kestilä, Antti Penttilä, Janne Kuhno, Karri Muinonen, Kai Viherkanto, Esa Kallio VTT Technical.

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Presentation transcript:

Tomas Kohout, Antti Näsilä, Tuomas Tikka, Mikael Granvik, Antti Kestilä, Antti Penttilä, Janne Kuhno, Karri Muinonen, Kai Viherkanto, Esa Kallio VTT Technical Research Centre of Finland Aalto University, Espoo, Finland Department of Physics, University of Helsinki, Finland Reaktor Space Lab Ltd Institute of Geology, The Czech Academy of Sciences, Prague, Czech Republic

ASPECT 3 unit CubeSat equipped with a spectral imager/spectrometer Propulsion Avionics Originally developed for AIDA mission Payload: VIS-NIR spectral imager Radiation-hardened platform Semi-autonomous navigation and operations Option to carry other payloads Aalto-1 and Aalto-2 heritage (launched June 2017)

Spectral imager concept 1U envelope 3 measurement channels: VIS (500–900 nm) spectral imager (614 x 614 pixels) NIR (900–1600 nm) spectral imager (256 x 256 pixels) SWIR (1600–2500 nm) spectrometer (1 pixel) Aalto-1 Spectral Imager heritage Based on VTT’s tunable filter technology (Fabry-Perot Interferometers) Freely selectable wavelength bands On-board data processing

Sepctral imager resolution

Payload capabilities Global compositional mapping and imaging sub-meter resolution Detection of common silicate minerals (1000, 1300 and 2000 nm absorption) Hydrated minerals as serpentine are detectable through 700 nm absorption feature Direct evidence of -OH an H2O can be detected at 1400 and 1900 nm respectively Spectral slope is diagnostic of material maturity (fresh vs. old) Regolith roughness can be estimated from phase curve

ASPECT ISRU objectives ASPECT prospecting objectives and expected results Objective 1 Map the surface composition of the target Result Composition and homogeneity of the target surface Identification and distribution of volatiles Objective 2 Photometric observations and modelling of the target Surface roughness / particle size distribution Objective 3 Characterize possible landing sites Detailed composition and surface roughness information on potential landing sites Objective 4 Evaluate surface areas and objects suitable for sample return or ISRU Identification of areas and objects with desired properties

Hydrated features Bus et al. 1999

Fresh vs. old surface Binzel et al. 2010

Photometric observations and regolith roughness Sun

Summary ASPECT is a 3U asteroid CubeSat with an VIS-NIR imaging spectrometer Main science objectives are to characterize target surface composition and identify areas of potential interest (landing, sampling, ISRU) ASPECT can be deployed to lower, more risky orbit to achieve high resolution Scalable to 6 or 12U Versatile platform - may carry additional payloads Fleet of simple CubeSats with dedicated payloads can provide complex target characterization with increased redundancy and lower risk / cost