Coupling Mars Ground and Orbital Views: Generate Viewsheds of Mastcam Images From the Curiosity Rover, Using ArcGIS® and Public Datasets
Abstract
The Mastcam (Mast Camera) instrument onboard the NASA Curiosity rover provides an exclusive view of Mars: High‐resolution color images from Mastcam allow users to study Gale crater's geologic terrains along Curiosity's path. These ground observations complement the spatially broader views of Gale crater provided by spacecrafts from orbit. However, for a given Mastcam image, it can be challenging to locate the corresponding terrains on the orbital view. No method for locating Mastcam images onto orbital images had been made publicly available. The procedure presented here allows users to generate Mastcam image viewsheds, using ArcGIS® software, its built‐in Viewshed tool®, and public Mars datasets. This procedure locates onto Mars orbital view the terrains that are observed in a given Mastcam image. Because this procedure uses public datasets, it is applicable to available Mastcam images and to the future ones that will be acquired along the Curiosity rover's path. This procedure can be used by the public to assess scientific questions regarding Martian surface processes and geologic history. In addition, this procedure can be utilized as pedagogic GIS material by the Geosciences or Planetary Sciences communities, for enhancing students' skillsets in GIS and provide students with experience working with datasets from both orbiter and rover Mars missions.
Additional Information
© 2020 The Authors. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited. Issue Online: 18 September 2020; Version of Record online: 18 September 2020; Accepted manuscript online: 10 August 2020; Manuscript accepted: 18 July 2020; Manuscript revised: 06 July 2020; Manuscript received: 28 April 2020. We are grateful to the MSL engineers and scientists, in particular the Mastcam Team, and to the PDS teams, thanks to whom such awesome Mars datasets are acquired and made available. We thank Dr. Fred J. Calef III and an anonymous reviewer for their thorough reviews and thoughtful comments that improved this manuscript. The open access publishing fees for this article have been covered by the Texas A&M University Open Access to Knowledge Fund (OAKFund), supported by the University Libraries. Data Availability Statement: The data used in this work are publicly available: Sources are compiled in Table 1.Attached Files
Published - 2020EA001247.pdf
Supplemental Material - ess2626-sup-0001-2020ea001247text_si-1.docx
Supplemental Material - ess2626-sup-0002-2020ea001247text_si-2.docx
Supplemental Material - ess2626-sup-0003-2020ea001247text_si-3.unk
Supplemental Material - ess2626-sup-0004-2020ea001247table_si-1.xlsx
Supplemental Material - ess2626-sup-0005-2020ea001247table_si-2.xls
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Additional details
- Eprint ID
- 105000
- Resolver ID
- CaltechAUTHORS:20200818-123638376
- Texas A&M University
- Created
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2020-08-18Created from EPrint's datestamp field
- Updated
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2021-11-16Created from EPrint's last_modified field